[{"data":1,"prerenderedAt":2477},["ShallowReactive",2],{"9JJStFeYqd":3,"P72sMQvZBU":699,"COxvhoT3mR":1578,"wgcKy06VYG":2474},{"siteConfiguration":4,"navigations":107},{"id":5,"siteName":6,"siteDescription":7,"ieee":8,"dateFormat":9,"createdAt":10,"updatedAt":11,"url_path_id":12,"favicon":13,"header":24,"socialLinks":80,"footer":88,"seoMeta":95,"url_path":89},1,"IEEE IFCS 2026 | Tampa, Florida","The 2026 Conference of the IEEE International Frequency Control Symposium will be held in the dynamic city of Tampa, Florida, USA. This renowned event will bring together leading experts, researchers, and industry professionals from across the globe to explore the latest advancements and innovations in frequency control, timing technologies, and related fields.",true,"DDD","2025-06-30T19:21:38.667Z","2026-02-06T17:49:38.298Z","21",{"id":5,"name":14,"alternativeText":15,"caption":15,"width":16,"height":16,"formats":15,"hash":17,"ext":18,"mime":19,"size":20,"url":21,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":23,"updatedAt":23},"IFCS26_favicon.png",null,100,"IFCS_26_favicon_adb2660e8d",".png","image/png",4.35,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/IFCS_26_favicon_adb2660e8d.png","strapi-provider-upload-aws-s3-advanced","2025-06-30T19:16:30.285Z",{"id":5,"headerBackground":25,"siteLogo":26,"buttons":64,"affiliate":15},"base-100",{"id":27,"name":28,"alternativeText":15,"caption":15,"width":29,"height":30,"formats":31,"hash":60,"ext":18,"mime":19,"size":61,"url":62,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":63,"updatedAt":63},4,"ifcs26-logo_simple.png",1432,464,{"large":32,"small":39,"medium":46,"thumbnail":53},{"ext":18,"url":33,"hash":34,"mime":19,"name":35,"path":15,"size":36,"width":37,"height":38},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_ifcs26_logo_simple_87fa9c9407.png","large_ifcs26_logo_simple_87fa9c9407","large_ifcs26-logo_simple.png",101.04,1000,324,{"ext":18,"url":40,"hash":41,"mime":19,"name":42,"path":15,"size":43,"width":44,"height":45},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_ifcs26_logo_simple_87fa9c9407.png","small_ifcs26_logo_simple_87fa9c9407","small_ifcs26-logo_simple.png",44.17,500,162,{"ext":18,"url":47,"hash":48,"mime":19,"name":49,"path":15,"size":50,"width":51,"height":52},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_ifcs26_logo_simple_87fa9c9407.png","medium_ifcs26_logo_simple_87fa9c9407","medium_ifcs26-logo_simple.png",73.26,750,243,{"ext":18,"url":54,"hash":55,"mime":19,"name":56,"path":15,"size":57,"width":58,"height":59},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_ifcs26_logo_simple_87fa9c9407.png","thumbnail_ifcs26_logo_simple_87fa9c9407","thumbnail_ifcs26-logo_simple.png",18.3,245,79,"ifcs26_logo_simple_87fa9c9407",20.45,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/ifcs26_logo_simple_87fa9c9407.png","2025-06-30T19:16:31.072Z",{"id":65,"variation":66,"button":67},3,"Buttons Left",[68,75],{"id":65,"label":69,"size":70,"color":71,"style":15,"icon":72,"iconPosition":73,"url":74,"newWindow":8,"downloadable":8,"shape":15},"Register Now","btn-sm","btn-primary","ArrowDownTrayIcon","End","/registration",{"id":76,"label":77,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":79,"newWindow":8,"downloadable":15,"shape":15},15,"Join Our Mailing List","ChevronRightIcon","http://eepurl.com/ifRAp5",[81,84],{"id":5,"url":82,"platform":83},"https://www.linkedin.com/company/ieee-uffc-s/","Linkedin",{"id":85,"url":86,"platform":87},2,"https://www.facebook.com/uffcs/","Facebook",{"id":5,"prose":89,"confcatsFooter":8,"affiliatesFooter":90,"styles":91},"",false,{"id":92,"edgeTop":93,"edgeBottom":93,"background":94,"containerWidth":15},8,"None","accent",{"id":5,"eventAttendanceMode":96,"startDate":97,"endDate":98,"eventStatus":99,"previousStartDate":15,"locationName":100,"locationStreetAddress":101,"addressLocality":102,"addressRegion":103,"addressCountry":104,"registrationUrl":15,"postalCode":105,"locationUrl":106,"isEvent":8,"affiliate":15},"OfflineEventAttendanceMode","2025-05-10T05:00:00.000Z","2026-06-13T05:00:00.000Z","EventScheduled","Hilton Tampa Downtown","211 N Tampa St","Tampa","Florida","Unitedf States","33602","https://www.hilton.com/en/hotels/tpanthf-hilton-tampa-downtown/",{"mainNavigation":108,"footerNavigation":698},[109,130,173,337,474,488,550,669],{"id":5,"title":110,"menuAttached":8,"order":5,"path":111,"type":112,"uiRouterKey":113,"slug":114,"external":90,"related":115,"items":129},"Home","/home","INTERNAL","home","home-1",{"id":5,"heading":110,"createdAt":116,"updatedAt":117,"publishedAt":118,"url_path_id":119,"__contentType":120,"pathAlias":121,"navigationItemId":5,"createdBy":126,"updatedBy":127,"__templateName":128},"2024-03-13T14:20:12.695Z","2026-05-13T20:01:37.019Z","2025-07-01T17:46:37.766Z","11","api::page.page",{"id":122,"url_path":123,"generated":90,"contenttype":120,"createdAt":124,"updatedAt":125},11,"/","2025-04-24T20:06:07.144Z","2025-06-30T19:36:48.108Z",{},{},"Generic",[],{"id":65,"title":131,"menuAttached":8,"order":85,"path":132,"type":133,"uiRouterKey":134,"slug":135,"external":90,"items":136},"About","/about","WRAPPER","about","about-1",[137,155],{"id":138,"title":139,"menuAttached":8,"order":5,"path":140,"type":112,"uiRouterKey":141,"slug":142,"external":90,"related":143,"items":154},6,"Organizers","/about/organizers","organizers","about-organizers",{"id":122,"heading":139,"createdAt":144,"updatedAt":145,"publishedAt":146,"url_path_id":147,"__contentType":120,"pathAlias":148,"navigationItemId":138,"createdBy":152,"updatedBy":153,"__templateName":128},"2025-06-30T20:08:54.806Z","2025-12-12T13:41:06.955Z","2025-07-01T17:47:02.888Z","31",{"id":149,"url_path":140,"generated":90,"contenttype":120,"createdAt":150,"updatedAt":151},31,"2025-06-30T20:08:54.827Z","2025-06-30T20:09:22.737Z",{},{},[],{"id":156,"title":157,"menuAttached":8,"order":85,"path":158,"type":112,"uiRouterKey":159,"slug":160,"external":90,"related":161,"items":172},5,"IEEE Policies","/about/ieee-policies","ieee-policies","about-ieee-policies",{"id":92,"heading":157,"createdAt":162,"updatedAt":163,"publishedAt":164,"url_path_id":165,"__contentType":120,"pathAlias":166,"navigationItemId":156,"createdBy":170,"updatedBy":171,"__templateName":128},"2024-03-27T21:21:52.331Z","2025-07-01T17:46:47.323Z","2025-07-01T17:46:47.308Z","18",{"id":167,"url_path":158,"generated":90,"contenttype":120,"createdAt":168,"updatedAt":169},18,"2025-04-24T20:06:07.541Z","2025-06-30T20:09:36.092Z",{},{},[],{"id":174,"title":175,"menuAttached":8,"order":65,"path":176,"type":133,"uiRouterKey":177,"slug":178,"external":90,"items":179},9,"Program","/program","program","program-1",[180,200,219,238,258,278,297,318],{"id":181,"title":182,"menuAttached":8,"order":5,"path":183,"type":112,"uiRouterKey":184,"slug":185,"external":90,"related":186,"items":199},22,"Schedule Overview","/program/schedule-overview","schedule-overview","program-schedule-overview",{"id":187,"heading":182,"createdAt":188,"updatedAt":189,"publishedAt":190,"url_path_id":191,"__contentType":120,"pathAlias":192,"navigationItemId":181,"createdBy":197,"updatedBy":198,"__templateName":128},21,"2026-01-21T18:57:39.687Z","2026-04-08T17:27:35.830Z","2026-01-21T18:57:41.608Z","81",{"id":193,"url_path":194,"generated":8,"contenttype":120,"createdAt":195,"updatedAt":196},81,"/schedule-overview","2026-01-21T18:57:39.703Z","2026-04-08T17:27:35.851Z",{},{},[],{"id":201,"title":202,"menuAttached":8,"order":85,"path":203,"type":112,"uiRouterKey":204,"slug":205,"external":90,"related":206,"items":218},10,"Plenary Speakers","/program/plenary","plenary-speakers-1","program-plenary",{"id":207,"heading":202,"createdAt":208,"updatedAt":209,"publishedAt":210,"url_path_id":211,"__contentType":120,"pathAlias":212,"navigationItemId":201,"createdBy":216,"updatedBy":217,"__templateName":128},14,"2025-10-27T21:47:53.405Z","2026-03-30T15:43:20.502Z","2025-10-27T21:47:55.249Z","36",{"id":213,"url_path":203,"generated":90,"contenttype":120,"createdAt":214,"updatedAt":215},36,"2025-10-27T21:47:53.418Z","2026-01-20T18:50:27.955Z",{},{},[],{"id":220,"title":221,"menuAttached":8,"order":65,"path":222,"type":112,"uiRouterKey":223,"slug":224,"external":90,"related":225,"items":237},19,"Tutorials","/program/tutorials","tutorials","program-tutorials",{"id":220,"heading":221,"createdAt":226,"updatedAt":227,"publishedAt":228,"url_path_id":229,"__contentType":120,"pathAlias":230,"navigationItemId":220,"createdBy":235,"updatedBy":236,"__templateName":128},"2025-12-22T21:33:36.602Z","2026-02-05T16:08:10.576Z","2025-12-22T21:33:43.464Z","70",{"id":231,"url_path":232,"generated":8,"contenttype":120,"createdAt":233,"updatedAt":234},70,"/tutorials","2025-12-22T21:33:36.614Z","2026-02-05T16:08:10.604Z",{},{},[],{"id":239,"title":240,"menuAttached":8,"order":27,"path":241,"type":112,"uiRouterKey":242,"slug":243,"external":90,"related":244,"items":257},25,"Invited Speakers","/program/invited-speakers","invited-speakers-1","program-invited-speakers",{"id":245,"heading":240,"createdAt":246,"updatedAt":247,"publishedAt":248,"url_path_id":249,"__contentType":120,"pathAlias":250,"navigationItemId":239,"createdBy":255,"updatedBy":256,"__templateName":128},24,"2026-02-03T21:13:12.362Z","2026-02-20T17:45:06.145Z","2026-02-09T16:07:43.410Z","103",{"id":251,"url_path":252,"generated":8,"contenttype":120,"createdAt":253,"updatedAt":254},103,"/invited-speakers","2026-02-03T21:13:12.372Z","2026-02-20T17:45:06.169Z",{},{},[],{"id":259,"title":260,"menuAttached":8,"order":156,"path":261,"type":112,"uiRouterKey":262,"slug":263,"external":90,"related":264,"items":277},23,"Invited Speakers Special Sessions","/program/invited-speakers-special-sessions","invited-speakers-special-sessions-1","program-invited-speakers-special-sessions",{"id":181,"heading":265,"createdAt":266,"updatedAt":267,"publishedAt":268,"url_path_id":269,"__contentType":120,"pathAlias":270,"navigationItemId":259,"createdBy":275,"updatedBy":276,"__templateName":128},"Invited Speakers - Special Sessions","2026-01-26T17:55:08.627Z","2026-05-04T16:23:23.763Z","2026-01-26T21:51:05.424Z","82",{"id":271,"url_path":272,"generated":8,"contenttype":120,"createdAt":273,"updatedAt":274},82,"/invited-speakers-special-sessions","2026-01-26T17:55:08.641Z","2026-05-04T16:23:23.787Z",{},{},[],{"id":279,"title":280,"menuAttached":8,"order":138,"path":281,"type":112,"uiRouterKey":282,"slug":283,"external":90,"related":284,"items":296},26,"Women in Engineering Event","/program/women-in-engineering-event","women-in-engineering-event","program-women-in-engineering-event",{"id":239,"heading":280,"createdAt":285,"updatedAt":286,"publishedAt":287,"url_path_id":288,"__contentType":120,"pathAlias":289,"navigationItemId":279,"createdBy":294,"updatedBy":295,"__templateName":128},"2026-02-11T18:46:41.371Z","2026-05-10T16:54:15.756Z","2026-02-11T18:49:38.430Z","184",{"id":290,"url_path":291,"generated":8,"contenttype":120,"createdAt":292,"updatedAt":293},184,"/women-in-engineering-event","2026-02-11T18:46:41.397Z","2026-05-10T16:54:15.795Z",{},{},[],{"id":298,"title":299,"menuAttached":8,"order":300,"path":301,"type":112,"uiRouterKey":302,"slug":303,"external":90,"related":304,"items":317},33,"Student Events",7,"/program/student-events","student-events","program-student-events",{"id":305,"heading":299,"createdAt":306,"updatedAt":307,"publishedAt":308,"url_path_id":309,"__contentType":120,"pathAlias":310,"navigationItemId":298,"createdBy":315,"updatedBy":316,"__templateName":128},32,"2026-04-28T20:33:39.918Z","2026-04-28T20:33:52.621Z","2026-04-28T20:33:52.574Z","205",{"id":311,"url_path":312,"generated":8,"contenttype":120,"createdAt":313,"updatedAt":314},205,"/student-events","2026-04-28T20:33:39.934Z","2026-04-28T20:33:52.653Z",{},{},[],{"id":305,"title":319,"menuAttached":8,"order":92,"path":320,"type":112,"uiRouterKey":321,"slug":322,"external":90,"related":323,"items":336},"CONFlux Mobile App","/program/conflux","con-flux-mobile-app","program-conflux",{"id":149,"heading":324,"createdAt":325,"updatedAt":326,"publishedAt":327,"url_path_id":328,"__contentType":120,"pathAlias":329,"navigationItemId":305,"createdBy":334,"updatedBy":335,"__templateName":128},"CONFlux Conference Mobile App","2026-04-16T23:26:13.536Z","2026-04-20T20:34:20.247Z","2026-04-20T20:34:20.199Z","204",{"id":330,"url_path":331,"generated":90,"contenttype":120,"createdAt":332,"updatedAt":333},204,"/marketing/conflux","2026-04-16T23:26:13.554Z","2026-04-16T23:26:24.604Z",{},{},[],{"id":85,"title":338,"menuAttached":8,"order":27,"path":339,"type":133,"uiRouterKey":340,"slug":341,"external":90,"items":342},"Authors","/authors","authors","authors-1",[343,363,379,398,417,436,455],{"id":344,"title":345,"menuAttached":8,"order":5,"path":346,"type":112,"uiRouterKey":347,"slug":348,"external":90,"related":349,"items":362},29,"Full Paper Submission Guidelines","/authors/full-paper-submission-guidelines","full-paper-submission-guidelines-1","authors-full-paper-submission-guidelines",{"id":350,"heading":345,"createdAt":351,"updatedAt":352,"publishedAt":353,"url_path_id":354,"__contentType":120,"pathAlias":355,"navigationItemId":344,"createdBy":360,"updatedBy":361,"__templateName":128},28,"2026-03-05T02:01:31.965Z","2026-03-05T02:01:35.863Z","2026-03-05T02:01:35.832Z","196",{"id":356,"url_path":357,"generated":8,"contenttype":120,"createdAt":358,"updatedAt":359},196,"/full-paper-submission-guidelines","2026-03-05T02:01:31.983Z","2026-03-05T02:01:35.997Z",{},{},[],{"id":27,"title":364,"menuAttached":8,"order":85,"path":365,"type":112,"uiRouterKey":366,"slug":367,"external":90,"related":368,"items":378},"Call for Papers","/authors/call-for-papers","call-for-papers","authors-call-for-papers",{"id":27,"heading":364,"createdAt":369,"updatedAt":370,"publishedAt":371,"url_path_id":372,"__contentType":120,"pathAlias":373,"navigationItemId":27,"createdBy":376,"updatedBy":377,"__templateName":128},"2024-03-13T14:22:16.957Z","2025-12-12T13:16:38.845Z","2025-07-01T17:47:10.258Z","14",{"id":207,"url_path":365,"generated":90,"contenttype":120,"createdAt":374,"updatedAt":375},"2025-04-24T20:06:07.312Z","2025-06-30T19:51:06.185Z",{},{},[],{"id":122,"title":380,"menuAttached":8,"order":65,"path":381,"type":112,"uiRouterKey":382,"slug":383,"external":90,"related":384,"items":397},"Abstract Submissions","/authors/abstract-submission-instructions","abstract-submissions","authors-abstract-submission-instructions",{"id":76,"heading":385,"createdAt":386,"updatedAt":387,"publishedAt":388,"url_path_id":389,"__contentType":120,"pathAlias":390,"navigationItemId":122,"createdBy":395,"updatedBy":396,"__templateName":128},"Abstract Submission Instructions","2025-11-03T21:22:46.135Z","2025-12-12T13:18:57.401Z","2025-11-03T21:23:14.597Z","37",{"id":391,"url_path":392,"generated":8,"contenttype":120,"createdAt":393,"updatedAt":394},37,"/abstract-submission-instructions","2025-11-03T21:22:46.148Z","2025-12-12T13:18:57.422Z",{},{},[],{"id":207,"title":399,"menuAttached":8,"order":27,"path":400,"type":112,"uiRouterKey":401,"slug":402,"external":90,"related":403,"items":416},"Special Sessions","/authors/special-sessions","special-sessions","authors-special-sessions",{"id":404,"heading":399,"createdAt":405,"updatedAt":406,"publishedAt":407,"url_path_id":408,"__contentType":120,"pathAlias":409,"navigationItemId":207,"createdBy":414,"updatedBy":415,"__templateName":128},17,"2025-11-06T18:24:29.072Z","2026-01-20T18:58:17.516Z","2025-11-06T18:24:31.785Z","39",{"id":410,"url_path":411,"generated":8,"contenttype":120,"createdAt":412,"updatedAt":413},39,"/special-sessions","2025-11-06T18:24:29.099Z","2026-01-20T18:58:17.534Z",{},{},[],{"id":418,"title":419,"menuAttached":8,"order":156,"path":420,"type":112,"uiRouterKey":421,"slug":422,"external":90,"related":423,"items":435},20,"Author Video Instructions","/authors/author-video-instructions","author-video-instructions","authors-author-video-instructions",{"id":418,"heading":419,"createdAt":424,"updatedAt":425,"publishedAt":426,"url_path_id":427,"__contentType":120,"pathAlias":428,"navigationItemId":418,"createdBy":433,"updatedBy":434,"__templateName":128},"2025-12-23T15:43:11.267Z","2026-03-05T17:32:55.385Z","2025-12-23T15:44:16.501Z","71",{"id":429,"url_path":430,"generated":8,"contenttype":120,"createdAt":431,"updatedAt":432},71,"/author-video-instructions","2025-12-23T15:43:11.276Z","2026-03-05T17:32:55.520Z",{},{},[],{"id":437,"title":438,"menuAttached":8,"order":138,"path":439,"type":112,"uiRouterKey":440,"slug":441,"external":90,"related":442,"items":454},27,"Pre-college Mini-Research Poster Session","/authors/pre-college-mini-research-poster-session","pre-college-mini-research-poster-session","authors-pre-college-mini-research-poster-session",{"id":279,"heading":438,"createdAt":443,"updatedAt":444,"publishedAt":445,"url_path_id":446,"__contentType":120,"pathAlias":447,"navigationItemId":437,"createdBy":452,"updatedBy":453,"__templateName":128},"2026-02-27T18:03:23.452Z","2026-02-27T18:10:34.307Z","2026-02-27T18:06:49.601Z","192",{"id":448,"url_path":449,"generated":8,"contenttype":120,"createdAt":450,"updatedAt":451},192,"/pre-college-mini-research-poster-session","2026-02-27T18:03:23.481Z","2026-02-27T18:10:34.335Z",{},{},[],{"id":149,"title":456,"menuAttached":8,"order":300,"path":457,"type":112,"uiRouterKey":458,"slug":459,"external":90,"related":460,"items":473},"Author Presentation Instructions","/authors/author-presentation-instructions","author-presentation-instructions","authors-author-presentation-instructions",{"id":461,"heading":456,"createdAt":462,"updatedAt":463,"publishedAt":464,"url_path_id":465,"__contentType":120,"pathAlias":466,"navigationItemId":149,"createdBy":471,"updatedBy":472,"__templateName":128},30,"2026-04-06T15:39:55.223Z","2026-04-06T15:39:57.769Z","2026-04-06T15:39:57.724Z","201",{"id":467,"url_path":468,"generated":8,"contenttype":120,"createdAt":469,"updatedAt":470},201,"/author-presentation-instructions","2026-04-06T15:39:55.244Z","2026-04-06T15:39:57.801Z",{},{},[],{"id":167,"title":475,"menuAttached":8,"order":156,"path":74,"type":112,"uiRouterKey":476,"slug":477,"external":90,"related":478,"items":487},"Registration","registration","registration-1",{"id":156,"heading":475,"createdAt":479,"updatedAt":480,"publishedAt":15,"url_path_id":481,"__contentType":120,"pathAlias":482,"navigationItemId":167,"createdBy":485,"updatedBy":486,"__templateName":128},"2024-03-13T14:22:33.303Z","2026-02-10T21:57:41.255Z","15",{"id":76,"url_path":74,"generated":90,"contenttype":120,"createdAt":483,"updatedAt":484},"2025-04-24T20:06:07.362Z","2025-12-02T16:50:59.550Z",{},{},[],{"id":489,"title":490,"menuAttached":8,"order":138,"path":491,"type":133,"uiRouterKey":492,"slug":493,"external":90,"items":494},16,"Sponsors / Exhibitors","/sponsors","sponsors-exhibitors-1","sponsors-1",[495,513,532],{"id":404,"title":496,"menuAttached":8,"order":5,"path":497,"type":112,"uiRouterKey":498,"slug":499,"external":90,"related":500,"items":512},"Become a Sponsor ","/sponsors/sponsors-and-exhibitors/become-a-sponsor-or-exhibitor","become-a-sponsor","sponsors-sponsors-and-exhibitors-become-a-sponsor-or-exhibitor",{"id":201,"heading":501,"createdAt":502,"updatedAt":503,"publishedAt":504,"url_path_id":505,"__contentType":120,"pathAlias":506,"navigationItemId":404,"createdBy":510,"updatedBy":511,"__templateName":128},"Become a Sponsor","2024-09-11T06:01:15.716Z","2026-04-23T19:55:45.034Z","2026-03-04T22:57:28.092Z","20",{"id":418,"url_path":507,"generated":90,"contenttype":120,"createdAt":508,"updatedAt":509},"/sponsors-and-exhibitors/become-a-sponsor","2025-04-24T20:06:07.645Z","2025-12-02T17:31:14.267Z",{},{},[],{"id":245,"title":514,"menuAttached":8,"order":85,"path":515,"type":112,"uiRouterKey":516,"slug":517,"external":90,"related":518,"items":531},"Sponsor & Exhibitor Listing","/sponsors/sponsors-exhibitors-listing","sponsor-1","sponsors-sponsors-exhibitors-listing",{"id":259,"heading":519,"createdAt":520,"updatedAt":521,"publishedAt":522,"url_path_id":523,"__contentType":120,"pathAlias":524,"navigationItemId":245,"createdBy":529,"updatedBy":530,"__templateName":128},"Sponsors/Exhibitors Listing","2026-01-28T18:00:52.636Z","2026-05-11T17:48:26.886Z","2026-01-28T18:01:48.757Z","93",{"id":525,"url_path":526,"generated":8,"contenttype":120,"createdAt":527,"updatedAt":528},93,"/sponsors-exhibitors-listing","2026-01-28T18:00:52.703Z","2026-05-11T17:48:26.916Z",{},{},[],{"id":350,"title":533,"menuAttached":8,"order":65,"path":534,"type":112,"uiRouterKey":535,"slug":536,"external":90,"related":537,"items":549},"Sponsor & Exhibitor Resources","/sponsors/sponsor-exhibitor-resources","sponsor-2","sponsors-sponsor-exhibitor-resources",{"id":437,"heading":533,"createdAt":538,"updatedAt":539,"publishedAt":540,"url_path_id":541,"__contentType":120,"pathAlias":542,"navigationItemId":350,"createdBy":547,"updatedBy":548,"__templateName":128},"2026-03-04T22:56:41.875Z","2026-04-23T19:53:11.460Z","2026-03-04T23:01:25.337Z","195",{"id":543,"url_path":544,"generated":8,"contenttype":120,"createdAt":545,"updatedAt":546},195,"/sponsor-exhibitor-resources","2026-03-04T22:56:41.906Z","2026-04-23T19:53:11.521Z",{},{},[],{"id":551,"title":552,"menuAttached":8,"order":300,"path":553,"type":133,"uiRouterKey":554,"slug":555,"external":90,"items":556},12,"Awards","/awards","awards","awards-1",[557,576,594,612,631,649],{"id":558,"title":559,"menuAttached":8,"order":5,"path":560,"type":112,"uiRouterKey":561,"slug":562,"external":90,"related":563,"items":575},13,"Student Travel Grants","/awards/student-travel-grants","student-travel-grants","awards-student-travel-grants",{"id":489,"heading":559,"createdAt":564,"updatedAt":565,"publishedAt":566,"url_path_id":567,"__contentType":120,"pathAlias":568,"navigationItemId":558,"createdBy":573,"updatedBy":574,"__templateName":128},"2025-11-03T21:38:07.798Z","2025-11-04T18:57:41.343Z","2025-11-03T21:41:46.007Z","38",{"id":569,"url_path":570,"generated":8,"contenttype":120,"createdAt":571,"updatedAt":572},38,"/student-travel-grants","2025-11-03T21:38:07.812Z","2025-11-04T18:57:41.363Z",{},{},[],{"id":213,"title":577,"menuAttached":8,"order":85,"path":578,"type":112,"uiRouterKey":579,"slug":580,"external":90,"related":581,"items":593},"Student Travel Grant Awards","/awards/student-travel-grant-awards","student-travel-grant-awards-1","awards-student-travel-grant-awards",{"id":213,"heading":577,"createdAt":582,"updatedAt":583,"publishedAt":584,"url_path_id":585,"__contentType":120,"pathAlias":586,"navigationItemId":213,"createdBy":591,"updatedBy":592,"__templateName":128},"2026-05-13T20:37:02.361Z","2026-05-13T20:56:28.015Z","2026-05-13T20:37:10.849Z","211",{"id":587,"url_path":588,"generated":8,"contenttype":120,"createdAt":589,"updatedAt":590},211,"/student-travel-grant-awards","2026-05-13T20:37:02.382Z","2026-05-13T20:56:28.036Z",{},{},[],{"id":76,"title":595,"menuAttached":8,"order":65,"path":596,"type":112,"uiRouterKey":597,"slug":598,"external":90,"related":599,"items":611},"IFCS Award Nominations","/awards/awards/ifcs-award-nominations","ifcs-award-nominations","awards-awards-ifcs-award-nominations",{"id":167,"heading":595,"createdAt":600,"updatedAt":601,"publishedAt":602,"url_path_id":603,"__contentType":120,"pathAlias":604,"navigationItemId":76,"createdBy":609,"updatedBy":610,"__templateName":128},"2025-12-02T17:48:43.280Z","2026-02-03T21:22:17.870Z","2026-02-03T21:22:11.043Z","55",{"id":605,"url_path":606,"generated":90,"contenttype":120,"createdAt":607,"updatedAt":608},55,"/awards/ifcs-award-nominations","2025-12-02T17:48:43.295Z","2025-12-02T17:48:49.754Z",{},{},[],{"id":613,"title":614,"menuAttached":8,"order":27,"path":615,"type":112,"uiRouterKey":616,"slug":617,"external":90,"related":618,"items":630},34,"IFCS Award Winners","/awards/ifcs-award-winners","ifcs-award-winners","awards-ifcs-award-winners",{"id":298,"heading":614,"createdAt":619,"updatedAt":620,"publishedAt":621,"url_path_id":622,"__contentType":120,"pathAlias":623,"navigationItemId":613,"createdBy":628,"updatedBy":629,"__templateName":128},"2026-04-28T20:49:20.033Z","2026-04-28T20:51:58.133Z","2026-04-28T20:49:23.487Z","206",{"id":624,"url_path":625,"generated":8,"contenttype":120,"createdAt":626,"updatedAt":627},206,"/ifcs-award-winners","2026-04-28T20:49:20.053Z","2026-04-28T20:51:58.173Z",{},{},[],{"id":461,"title":632,"menuAttached":8,"order":156,"path":633,"type":112,"uiRouterKey":634,"slug":635,"external":90,"related":636,"items":648},"Student Competition","/awards/student-competition","student-competition-1","awards-student-competition",{"id":344,"heading":632,"createdAt":637,"updatedAt":638,"publishedAt":639,"url_path_id":640,"__contentType":120,"pathAlias":641,"navigationItemId":461,"createdBy":646,"updatedBy":647,"__templateName":128},"2026-03-26T18:27:00.160Z","2026-05-13T20:16:41.733Z","2026-03-26T18:27:35.551Z","199",{"id":642,"url_path":643,"generated":8,"contenttype":120,"createdAt":644,"updatedAt":645},199,"/student-competition","2026-03-26T18:27:00.205Z","2026-05-13T20:16:41.759Z",{},{},[],{"id":650,"title":651,"menuAttached":8,"order":138,"path":652,"type":112,"uiRouterKey":653,"slug":654,"external":90,"related":655,"items":668},35,"Student Pitch Competition ","/awards/student-pitch","student-pitch-competition","awards-student-pitch",{"id":650,"heading":656,"createdAt":657,"updatedAt":658,"publishedAt":659,"url_path_id":660,"__contentType":120,"pathAlias":661,"navigationItemId":650,"createdBy":666,"updatedBy":667,"__templateName":128},"Student Pitch Competition","2026-05-13T20:18:20.337Z","2026-05-13T20:54:51.161Z","2026-05-13T20:18:23.326Z","210",{"id":662,"url_path":663,"generated":8,"contenttype":120,"createdAt":664,"updatedAt":665},210,"/student-pitch-competition","2026-05-13T20:18:20.353Z","2026-05-13T20:54:51.190Z",{},{},[],{"id":300,"title":670,"menuAttached":8,"order":92,"path":671,"type":133,"uiRouterKey":672,"slug":673,"external":90,"items":674},"Travel & Venue","/travel-and-venue","travel","travel-and-venue",[675,692],{"id":92,"title":676,"menuAttached":8,"order":5,"path":677,"type":112,"uiRouterKey":678,"slug":679,"external":90,"related":680,"items":691},"Venue","/travel-and-venue/venue","venue","travel-and-venue-venue",{"id":551,"heading":676,"createdAt":681,"updatedAt":682,"publishedAt":683,"url_path_id":684,"__contentType":120,"pathAlias":685,"navigationItemId":92,"createdBy":689,"updatedBy":690,"__templateName":128},"2025-06-30T20:36:44.629Z","2026-03-05T17:45:51.978Z","2025-07-01T17:46:26.992Z","32",{"id":305,"url_path":686,"generated":8,"contenttype":120,"createdAt":687,"updatedAt":688},"/venue","2025-06-30T20:36:44.645Z","2026-03-05T17:45:52.007Z",{},{},[],{"id":187,"title":693,"menuAttached":8,"order":85,"path":694,"type":695,"uiRouterKey":696,"slug":697,"external":8},"Visit Tampa "," https://www.visittampabay.com/ieee","EXTERNAL","visit-tampa",{},[],{"affiliates":700},{"affiliates":701},{"data":702,"meta":1576},[703,739,760,793,825,866,894,915,945,974,999,1034,1079,1116,1140,1178,1220,1238,1284,1328,1372,1414,1459,1497,1530],{"id":5,"name":704,"description":89,"createdAt":705,"updatedAt":706,"publishedAt":707,"url_path_id":708,"logo":709,"website":15,"url_path":738},"TimeTech GmbH","2025-12-02T17:24:47.834Z","2025-12-02T17:24:52.165Z","2025-12-02T17:24:52.159Z","45",{"id":305,"name":710,"alternativeText":15,"caption":15,"width":37,"height":711,"formats":712,"hash":734,"ext":714,"mime":717,"size":735,"url":736,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":737,"updatedAt":737},"Timetech.jpg",689,{"small":713,"medium":721,"thumbnail":727},{"ext":714,"url":715,"hash":716,"mime":717,"name":718,"path":15,"size":719,"width":44,"height":720},".jpg","https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Timetech_aca3c1d2fd.jpg","small_Timetech_aca3c1d2fd","image/jpeg","small_Timetech.jpg",12.88,345,{"ext":714,"url":722,"hash":723,"mime":717,"name":724,"path":15,"size":725,"width":51,"height":726},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Timetech_aca3c1d2fd.jpg","medium_Timetech_aca3c1d2fd","medium_Timetech.jpg",20.29,517,{"ext":714,"url":728,"hash":729,"mime":717,"name":730,"path":15,"size":731,"width":732,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Timetech_aca3c1d2fd.jpg","thumbnail_Timetech_aca3c1d2fd","thumbnail_Timetech.jpg",5.7,227,156,"Timetech_aca3c1d2fd",27.76,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Timetech_aca3c1d2fd.jpg","2025-12-02T17:16:41.712Z","-15",{"id":85,"name":740,"description":89,"createdAt":741,"updatedAt":742,"publishedAt":743,"url_path_id":744,"logo":745,"website":15,"url_path":759},"Rohde & Schwarz","2025-12-02T17:25:19.807Z","2025-12-02T17:25:20.911Z","2025-12-02T17:25:20.905Z","46",{"id":569,"name":746,"alternativeText":15,"caption":15,"width":44,"height":747,"formats":748,"hash":755,"ext":18,"mime":19,"size":756,"url":757,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":758,"updatedAt":758},"ROHDE_Swartz.png",422,{"thumbnail":749},{"ext":18,"url":750,"hash":751,"mime":19,"name":752,"path":15,"size":753,"width":754,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_ROHDE_Swartz_5ebcb36f5c.png","thumbnail_ROHDE_Swartz_5ebcb36f5c","thumbnail_ROHDE_Swartz.png",12.86,185,"ROHDE_Swartz_5ebcb36f5c",9.21,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/ROHDE_Swartz_5ebcb36f5c.png","2025-12-02T17:23:28.902Z","-16",{"id":65,"name":761,"description":89,"createdAt":762,"updatedAt":763,"publishedAt":764,"url_path_id":765,"logo":766,"website":15,"url_path":792},"Safran Electronics & Defense","2025-12-02T17:25:45.050Z","2025-12-02T17:25:46.235Z","2025-12-02T17:25:46.228Z","47",{"id":391,"name":767,"alternativeText":15,"caption":15,"width":37,"height":768,"formats":769,"hash":788,"ext":18,"mime":19,"size":789,"url":790,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":791,"updatedAt":791},"SAFRAN.png",343,{"small":770,"medium":776,"thumbnail":782},{"ext":18,"url":771,"hash":772,"mime":19,"name":773,"path":15,"size":774,"width":44,"height":775},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_SAFRAN_edef1f82ac.png","small_SAFRAN_edef1f82ac","small_SAFRAN.png",18.35,172,{"ext":18,"url":777,"hash":778,"mime":19,"name":779,"path":15,"size":780,"width":51,"height":781},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_SAFRAN_edef1f82ac.png","medium_SAFRAN_edef1f82ac","medium_SAFRAN.png",33.17,257,{"ext":18,"url":783,"hash":784,"mime":19,"name":785,"path":15,"size":786,"width":58,"height":787},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_SAFRAN_edef1f82ac.png","thumbnail_SAFRAN_edef1f82ac","thumbnail_SAFRAN.png",7.7,84,"SAFRAN_edef1f82ac",10.68,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/SAFRAN_edef1f82ac.png","2025-12-02T17:18:33.374Z","-17",{"id":27,"name":794,"description":89,"createdAt":795,"updatedAt":796,"publishedAt":797,"url_path_id":798,"logo":799,"website":15,"url_path":824},"FEMTO Engineering","2025-12-02T17:26:02.997Z","2025-12-02T17:26:03.982Z","2025-12-02T17:26:03.976Z","48",{"id":213,"name":800,"alternativeText":15,"caption":15,"width":37,"height":801,"formats":802,"hash":820,"ext":18,"mime":19,"size":821,"url":822,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":823,"updatedAt":823},"femtoeng.png",402,{"small":803,"medium":808,"thumbnail":814},{"ext":18,"url":804,"hash":805,"mime":19,"name":806,"path":15,"size":807,"width":44,"height":467},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_femtoeng_c6fbaec179.png","small_femtoeng_c6fbaec179","small_femtoeng.png",22.85,{"ext":18,"url":809,"hash":810,"mime":19,"name":811,"path":15,"size":812,"width":51,"height":813},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_femtoeng_c6fbaec179.png","medium_femtoeng_c6fbaec179","medium_femtoeng.png",39.6,302,{"ext":18,"url":815,"hash":816,"mime":19,"name":817,"path":15,"size":818,"width":58,"height":819},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_femtoeng_c6fbaec179.png","thumbnail_femtoeng_c6fbaec179","thumbnail_femtoeng.png",12.17,98,"femtoeng_c6fbaec179",12.77,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/femtoeng_c6fbaec179.png","2025-12-02T17:18:33.332Z","-18",{"id":156,"name":826,"description":89,"createdAt":827,"updatedAt":828,"publishedAt":829,"url_path_id":830,"logo":831,"website":15,"url_path":865},"Inceleris","2025-12-02T17:26:21.263Z","2025-12-02T17:26:22.206Z","2025-12-02T17:26:22.199Z","49",{"id":650,"name":832,"alternativeText":15,"caption":15,"width":833,"height":834,"formats":835,"hash":861,"ext":837,"mime":840,"size":862,"url":863,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":864,"updatedAt":864},"INCELERIS.gif",1015,163,{"large":836,"small":844,"medium":850,"thumbnail":856},{"ext":837,"url":838,"hash":839,"mime":840,"name":841,"path":15,"size":842,"width":37,"height":843},".gif","https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_INCELERIS_d0a00003d6.gif","large_INCELERIS_d0a00003d6","image/gif","large_INCELERIS.gif",17.12,161,{"ext":837,"url":845,"hash":846,"mime":840,"name":847,"path":15,"size":848,"width":44,"height":849},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_INCELERIS_d0a00003d6.gif","small_INCELERIS_d0a00003d6","small_INCELERIS.gif",7.13,80,{"ext":837,"url":851,"hash":852,"mime":840,"name":853,"path":15,"size":854,"width":51,"height":855},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_INCELERIS_d0a00003d6.gif","medium_INCELERIS_d0a00003d6","medium_INCELERIS.gif",11.71,120,{"ext":837,"url":857,"hash":858,"mime":840,"name":859,"path":15,"size":860,"width":58,"height":410},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_INCELERIS_d0a00003d6.gif","thumbnail_INCELERIS_d0a00003d6","thumbnail_INCELERIS.gif",3.26,"INCELERIS_d0a00003d6",14.96,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/INCELERIS_d0a00003d6.gif","2025-12-02T17:18:33.229Z","-19",{"id":138,"name":867,"description":89,"createdAt":868,"updatedAt":869,"publishedAt":870,"url_path_id":871,"logo":872,"website":886,"url_path":893},"Vescent Technologies","2025-12-02T17:26:58.633Z","2026-03-03T21:07:41.740Z","2025-12-02T17:27:27.008Z","50",{"id":613,"name":873,"alternativeText":15,"caption":15,"width":874,"height":875,"formats":876,"hash":882,"ext":18,"mime":19,"size":883,"url":884,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":885,"updatedAt":885},"Vescent_Logo.png",347,78,{"thumbnail":877},{"ext":18,"url":878,"hash":879,"mime":19,"name":880,"path":15,"size":881,"width":58,"height":605},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Vescent_Logo_2e5b24840a.png","thumbnail_Vescent_Logo_2e5b24840a","thumbnail_Vescent_Logo.png",6.91,"Vescent_Logo_2e5b24840a",2.61,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Vescent_Logo_2e5b24840a.png","2025-12-02T17:18:33.183Z",{"id":887,"variation":66,"button":888},44,[889],{"id":890,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":892,"newWindow":8,"downloadable":15,"shape":15},46,"More Info","https://vescent.com/","-20",{"id":300,"name":895,"description":89,"createdAt":896,"updatedAt":897,"publishedAt":898,"url_path_id":899,"logo":900,"website":15,"url_path":914},"Swabian Instruments","2025-12-02T17:27:20.856Z","2025-12-02T17:27:21.767Z","2025-12-02T17:27:21.760Z","51",{"id":298,"name":901,"alternativeText":15,"caption":15,"width":902,"height":193,"formats":903,"hash":910,"ext":714,"mime":717,"size":911,"url":912,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":913,"updatedAt":913},"Swabian_Instruments_Logo.jpg",470,{"thumbnail":904},{"ext":714,"url":905,"hash":906,"mime":717,"name":907,"path":15,"size":908,"width":58,"height":909},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Swabian_Instruments_Logo_080220d57a.jpg","thumbnail_Swabian_Instruments_Logo_080220d57a","thumbnail_Swabian_Instruments_Logo.jpg",4.33,42,"Swabian_Instruments_Logo_080220d57a",11.17,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Swabian_Instruments_Logo_080220d57a.jpg","2025-12-02T17:18:33.132Z","-21",{"id":92,"name":916,"description":89,"createdAt":917,"updatedAt":918,"publishedAt":919,"url_path_id":920,"logo":921,"website":940,"url_path":944},"Menlo Systems GMBH","2025-12-02T17:27:46.575Z","2026-02-09T19:08:07.292Z","2025-12-02T17:27:47.485Z","52",{"id":149,"name":922,"alternativeText":15,"caption":15,"width":51,"height":923,"formats":924,"hash":936,"ext":714,"mime":717,"size":937,"url":938,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":939,"updatedAt":939},"MenloSystems.jpg",143,{"small":925,"thumbnail":931},{"ext":714,"url":926,"hash":927,"mime":717,"name":928,"path":15,"size":929,"width":44,"height":930},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Menlo_Systems_ba480b21c8.jpg","small_Menlo_Systems_ba480b21c8","small_MenloSystems.jpg",10.35,95,{"ext":714,"url":932,"hash":933,"mime":717,"name":934,"path":15,"size":935,"width":58,"height":890},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Menlo_Systems_ba480b21c8.jpg","thumbnail_Menlo_Systems_ba480b21c8","thumbnail_MenloSystems.jpg",4.55,"Menlo_Systems_ba480b21c8",16.34,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Menlo_Systems_ba480b21c8.jpg","2025-12-02T17:16:41.694Z",{"id":650,"variation":66,"button":941},[942],{"id":213,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":943,"newWindow":8,"downloadable":15,"shape":15},"https://www.menlosystems.com/","-22",{"id":174,"name":946,"description":89,"createdAt":947,"updatedAt":948,"publishedAt":949,"url_path_id":950,"logo":951,"website":969,"url_path":973},"Toptica","2025-12-02T17:28:09.529Z","2026-02-02T18:26:19.073Z","2025-12-02T17:28:10.604Z","53",{"id":461,"name":952,"alternativeText":15,"caption":15,"width":51,"height":953,"formats":954,"hash":965,"ext":714,"mime":717,"size":966,"url":967,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":968,"updatedAt":968},"Toptica.jpg",293,{"small":955,"thumbnail":960},{"ext":714,"url":956,"hash":957,"mime":717,"name":958,"path":15,"size":959,"width":44,"height":543},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Toptica_96f80c394f.jpg","small_Toptica_96f80c394f","small_Toptica.jpg",7.44,{"ext":714,"url":961,"hash":962,"mime":717,"name":963,"path":15,"size":964,"width":58,"height":930},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Toptica_96f80c394f.jpg","thumbnail_Toptica_96f80c394f","thumbnail_Toptica.jpg",3.24,"Toptica_96f80c394f",11.87,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Toptica_96f80c394f.jpg","2025-12-02T17:16:06.415Z",{"id":344,"variation":66,"button":970},[971],{"id":149,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":972,"newWindow":8,"downloadable":15,"shape":15},"https://www.toptica.com/","-23",{"id":201,"name":975,"description":89,"createdAt":976,"updatedAt":977,"publishedAt":978,"url_path_id":979,"logo":980,"website":994,"url_path":998},"Microchip Technology Inc.","2025-12-02T17:28:34.310Z","2026-02-13T18:38:57.779Z","2025-12-02T17:28:35.152Z","54",{"id":344,"name":981,"alternativeText":15,"caption":15,"width":982,"height":787,"formats":983,"hash":990,"ext":18,"mime":19,"size":991,"url":992,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":993,"updatedAt":993},"Microchip.png",361,{"thumbnail":984},{"ext":18,"url":985,"hash":986,"mime":19,"name":987,"path":15,"size":988,"width":58,"height":989},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Microchip_4dd4544ce4.png","thumbnail_Microchip_4dd4544ce4","thumbnail_Microchip.png",7.68,57,"Microchip_4dd4544ce4",2.14,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Microchip_4dd4544ce4.png","2025-12-02T17:16:06.342Z",{"id":569,"variation":66,"button":995},[996],{"id":410,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":997,"newWindow":8,"downloadable":15,"shape":15},"https://www.microchip.com/","-24",{"id":122,"name":1000,"description":89,"createdAt":1001,"updatedAt":1002,"publishedAt":1003,"url_path_id":1004,"logo":1005,"website":1029,"url_path":1033},"Frequency Electronics Inc.","2026-01-28T18:04:44.189Z","2026-01-28T18:06:42.182Z","2026-01-28T18:06:42.171Z","94",{"id":1006,"name":1007,"alternativeText":15,"caption":15,"width":1008,"height":1008,"formats":1009,"hash":1025,"ext":18,"mime":19,"size":1026,"url":1027,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1028,"updatedAt":1028},61,"Frequency Electronics Inc..png",998,{"small":1010,"medium":1015,"thumbnail":1020},{"ext":18,"url":1011,"hash":1012,"mime":19,"name":1013,"path":15,"size":1014,"width":44,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Frequency_Electronics_Inc_e2c1e35002.png","small_Frequency_Electronics_Inc_e2c1e35002","small_Frequency Electronics Inc..png",30.78,{"ext":18,"url":1016,"hash":1017,"mime":19,"name":1018,"path":15,"size":1019,"width":51,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Frequency_Electronics_Inc_e2c1e35002.png","medium_Frequency_Electronics_Inc_e2c1e35002","medium_Frequency Electronics Inc..png",57.32,{"ext":18,"url":1021,"hash":1022,"mime":19,"name":1023,"path":15,"size":1024,"width":733,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Frequency_Electronics_Inc_e2c1e35002.png","thumbnail_Frequency_Electronics_Inc_e2c1e35002","thumbnail_Frequency Electronics Inc..png",9.98,"Frequency_Electronics_Inc_e2c1e35002",12.96,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Frequency_Electronics_Inc_e2c1e35002.png","2026-01-28T18:04:15.829Z",{"id":245,"variation":66,"button":1030},[1031],{"id":279,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1032,"newWindow":8,"downloadable":15,"shape":15},"https://freqelec.com/","-58",{"id":551,"name":1035,"description":89,"createdAt":1036,"updatedAt":1037,"publishedAt":1038,"url_path_id":1039,"logo":1040,"website":1074,"url_path":1078},"SILENTSYS","2026-01-28T18:06:34.309Z","2026-01-28T18:06:36.336Z","2026-01-28T18:06:36.316Z","95",{"id":1041,"name":1042,"alternativeText":15,"caption":15,"width":1043,"height":1044,"formats":1045,"hash":1070,"ext":18,"mime":19,"size":1071,"url":1072,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1073,"updatedAt":1073},62,"SILENTSYS LOGO.png",3878,822,{"large":1046,"small":1052,"medium":1058,"thumbnail":1064},{"ext":18,"url":1047,"hash":1048,"mime":19,"name":1049,"path":15,"size":1050,"width":37,"height":1051},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_SILENTSYS_LOGO_c7a6cc7016.png","large_SILENTSYS_LOGO_c7a6cc7016","large_SILENTSYS LOGO.png",34.18,212,{"ext":18,"url":1053,"hash":1054,"mime":19,"name":1055,"path":15,"size":1056,"width":44,"height":1057},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_SILENTSYS_LOGO_c7a6cc7016.png","small_SILENTSYS_LOGO_c7a6cc7016","small_SILENTSYS LOGO.png",16.85,106,{"ext":18,"url":1059,"hash":1060,"mime":19,"name":1061,"path":15,"size":1062,"width":51,"height":1063},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_SILENTSYS_LOGO_c7a6cc7016.png","medium_SILENTSYS_LOGO_c7a6cc7016","medium_SILENTSYS LOGO.png",26.3,159,{"ext":18,"url":1065,"hash":1066,"mime":19,"name":1067,"path":15,"size":1068,"width":58,"height":1069},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_SILENTSYS_LOGO_c7a6cc7016.png","thumbnail_SILENTSYS_LOGO_c7a6cc7016","thumbnail_SILENTSYS LOGO.png",8.69,52,"SILENTSYS_LOGO_c7a6cc7016",30.41,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/SILENTSYS_LOGO_c7a6cc7016.png","2026-01-28T18:05:50.216Z",{"id":239,"variation":66,"button":1075},[1076],{"id":437,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1077,"newWindow":8,"downloadable":15,"shape":15},"https://silentsys.com/","-59",{"id":489,"name":1080,"description":89,"createdAt":1081,"updatedAt":1082,"publishedAt":1083,"url_path_id":1084,"logo":1085,"website":1111,"url_path":1115},"Precise Time and Frequency, LLC","2026-02-04T15:51:34.568Z","2026-02-04T15:51:36.505Z","2026-02-04T15:51:36.495Z","108",{"id":271,"name":1086,"alternativeText":15,"caption":15,"width":1087,"height":1088,"formats":1089,"hash":1107,"ext":18,"mime":19,"size":1108,"url":1109,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1110,"updatedAt":1110},"PTFLogo.png",780,207,{"small":1090,"medium":1096,"thumbnail":1101},{"ext":18,"url":1091,"hash":1092,"mime":19,"name":1093,"path":15,"size":1094,"width":44,"height":1095},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_PTF_Logo_392d8c76ff.png","small_PTF_Logo_392d8c76ff","small_PTFLogo.png",40.21,133,{"ext":18,"url":1097,"hash":1098,"mime":19,"name":1099,"path":15,"size":1100,"width":51,"height":642},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_PTF_Logo_392d8c76ff.png","medium_PTF_Logo_392d8c76ff","medium_PTFLogo.png",76.51,{"ext":18,"url":1102,"hash":1103,"mime":19,"name":1104,"path":15,"size":1105,"width":58,"height":1106},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_PTF_Logo_392d8c76ff.png","thumbnail_PTF_Logo_392d8c76ff","thumbnail_PTFLogo.png",13.92,65,"PTF_Logo_392d8c76ff",25.07,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/PTF_Logo_392d8c76ff.png","2026-02-04T15:51:31.080Z",{"id":149,"variation":66,"button":1112},[1113],{"id":305,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1114,"newWindow":8,"downloadable":15,"shape":15},"https://ptf-llc.com/","-71",{"id":404,"name":1117,"description":89,"createdAt":1118,"updatedAt":1119,"publishedAt":1120,"url_path_id":1121,"logo":1122,"website":1135,"url_path":1139},"NDK","2026-02-06T18:27:50.873Z","2026-02-06T18:28:18.185Z","2026-02-06T18:28:18.171Z","109",{"id":787,"name":1123,"alternativeText":15,"caption":15,"width":982,"height":1124,"formats":1125,"hash":1131,"ext":714,"mime":717,"size":1132,"url":1133,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1134,"updatedAt":1134},"NDK LOGO.jpg",115,{"thumbnail":1126},{"ext":714,"url":1127,"hash":1128,"mime":717,"name":1129,"path":15,"size":1130,"width":58,"height":875},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_NDK_LOGO_316bc13ccd.jpg","thumbnail_NDK_LOGO_316bc13ccd","thumbnail_NDK LOGO.jpg",5.24,"NDK_LOGO_316bc13ccd",8.37,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/NDK_LOGO_316bc13ccd.jpg","2026-02-06T18:27:34.284Z",{"id":298,"variation":66,"button":1136},[1137],{"id":613,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1138,"newWindow":8,"downloadable":15,"shape":15},"https://www.ndk.com/en/","-72",{"id":167,"name":1141,"description":89,"createdAt":1142,"updatedAt":1143,"publishedAt":1144,"url_path_id":1145,"logo":1146,"website":1173,"url_path":1177},"Stable Laser Systems","2026-02-09T18:57:51.229Z","2026-02-09T18:57:56.309Z","2026-02-09T18:57:56.292Z","110",{"id":1147,"name":1148,"alternativeText":15,"caption":15,"width":37,"height":1149,"formats":1150,"hash":1169,"ext":714,"mime":717,"size":1170,"url":1171,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1172,"updatedAt":1172},86,"SLSlogo1000x300.jpg",300,{"small":1151,"medium":1157,"thumbnail":1163},{"ext":714,"url":1152,"hash":1153,"mime":717,"name":1154,"path":15,"size":1155,"width":44,"height":1156},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_SL_Slogo1000x300_511e8cfe6a.jpg","small_SL_Slogo1000x300_511e8cfe6a","small_SLSlogo1000x300.jpg",7.18,150,{"ext":714,"url":1158,"hash":1159,"mime":717,"name":1160,"path":15,"size":1161,"width":51,"height":1162},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_SL_Slogo1000x300_511e8cfe6a.jpg","medium_SL_Slogo1000x300_511e8cfe6a","medium_SLSlogo1000x300.jpg",11.73,225,{"ext":714,"url":1164,"hash":1165,"mime":717,"name":1166,"path":15,"size":1167,"width":58,"height":1168},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_SL_Slogo1000x300_511e8cfe6a.jpg","thumbnail_SL_Slogo1000x300_511e8cfe6a","thumbnail_SLSlogo1000x300.jpg",2.74,74,"SL_Slogo1000x300_511e8cfe6a",17.05,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/SL_Slogo1000x300_511e8cfe6a.jpg","2026-02-09T18:57:08.501Z",{"id":613,"variation":66,"button":1174},[1175],{"id":650,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1176,"newWindow":8,"downloadable":15,"shape":15},"https://stablelasers.com/","-73",{"id":220,"name":1179,"description":89,"createdAt":1180,"updatedAt":1181,"publishedAt":1182,"url_path_id":1183,"logo":1184,"website":1215,"url_path":1219},"OSCILLOQUARTZ","2026-02-09T19:16:03.649Z","2026-02-09T19:16:05.631Z","2026-02-09T19:16:05.623Z","111",{"id":1185,"name":1186,"alternativeText":15,"caption":15,"width":1187,"height":1188,"formats":1189,"hash":1211,"ext":714,"mime":717,"size":1212,"url":1213,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1214,"updatedAt":1214},87,"AdtranOSALogoCMYK.jpg",3004,516,{"large":1190,"small":1195,"medium":1200,"thumbnail":1206},{"ext":714,"url":1191,"hash":1192,"mime":717,"name":1193,"path":15,"size":1194,"width":37,"height":775},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_Adtran_OSA_Logo_CMYK_7d2f869c7c.jpg","large_Adtran_OSA_Logo_CMYK_7d2f869c7c","large_AdtranOSALogoCMYK.jpg",27.46,{"ext":714,"url":1196,"hash":1197,"mime":717,"name":1198,"path":15,"size":1199,"width":44,"height":1147},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Adtran_OSA_Logo_CMYK_7d2f869c7c.jpg","small_Adtran_OSA_Logo_CMYK_7d2f869c7c","small_AdtranOSALogoCMYK.jpg",11.15,{"ext":714,"url":1201,"hash":1202,"mime":717,"name":1203,"path":15,"size":1204,"width":51,"height":1205},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Adtran_OSA_Logo_CMYK_7d2f869c7c.jpg","medium_Adtran_OSA_Logo_CMYK_7d2f869c7c","medium_AdtranOSALogoCMYK.jpg",19.97,129,{"ext":714,"url":1207,"hash":1208,"mime":717,"name":1209,"path":15,"size":1210,"width":58,"height":909},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Adtran_OSA_Logo_CMYK_7d2f869c7c.jpg","thumbnail_Adtran_OSA_Logo_CMYK_7d2f869c7c","thumbnail_AdtranOSALogoCMYK.jpg",4.34,"Adtran_OSA_Logo_CMYK_7d2f869c7c",92.86,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Adtran_OSA_Logo_CMYK_7d2f869c7c.jpg","2026-02-09T19:15:51.001Z",{"id":213,"variation":66,"button":1216},[1217],{"id":391,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1218,"newWindow":8,"downloadable":15,"shape":15},"https://www.oscilloquartz.com/en","-74",{"id":418,"name":1221,"description":89,"createdAt":1222,"updatedAt":1223,"publishedAt":1224,"url_path_id":1225,"logo":1226,"website":1233,"url_path":1237},"MTI-Milliren Technologies, Inc","2026-02-13T18:34:59.453Z","2026-02-13T18:35:46.258Z","2026-02-13T18:35:46.248Z","188",{"id":251,"name":1227,"alternativeText":15,"caption":15,"width":1228,"height":1069,"formats":15,"hash":1229,"ext":837,"mime":840,"size":1230,"url":1231,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1232,"updatedAt":1232},"logo.gif",164,"logo_44b96acc71",4.25,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/logo_44b96acc71.gif","2026-02-13T18:34:26.358Z",{"id":391,"variation":66,"button":1234},[1235],{"id":569,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1236,"newWindow":8,"downloadable":15,"shape":15},"https://www.mti-milliren.com/","-148",{"id":187,"name":1239,"description":89,"createdAt":1240,"updatedAt":1241,"publishedAt":1242,"url_path_id":1243,"logo":1244,"website":1278,"url_path":1283},"GuideTech","2026-02-18T19:50:00.337Z","2026-02-18T19:50:02.629Z","2026-02-18T19:50:02.618Z","190",{"id":1245,"name":1246,"alternativeText":15,"caption":15,"width":1247,"height":1248,"formats":1249,"hash":1273,"ext":18,"mime":19,"size":1274,"url":1275,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1276,"updatedAt":1277},108,"GuideTechLogo.png",1448,814,{"large":1250,"small":1256,"medium":1262,"thumbnail":1267},{"ext":18,"url":1251,"hash":1252,"mime":19,"name":1253,"path":15,"size":1254,"width":37,"height":1255},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_Guide_Tech_Logo_3a47af534d.png","large_Guide_Tech_Logo_3a47af534d","large_GuideTechLogo.png",58.77,562,{"ext":18,"url":1257,"hash":1258,"mime":19,"name":1259,"path":15,"size":1260,"width":44,"height":1261},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Guide_Tech_Logo_3a47af534d.png","small_Guide_Tech_Logo_3a47af534d","small_GuideTechLogo.png",23.41,281,{"ext":18,"url":1263,"hash":1264,"mime":19,"name":1265,"path":15,"size":1266,"width":51,"height":747},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Guide_Tech_Logo_3a47af534d.png","medium_Guide_Tech_Logo_3a47af534d","medium_GuideTechLogo.png",40.7,{"ext":18,"url":1268,"hash":1269,"mime":19,"name":1270,"path":15,"size":1271,"width":58,"height":1272},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Guide_Tech_Logo_3a47af534d.png","thumbnail_Guide_Tech_Logo_3a47af534d","thumbnail_GuideTechLogo.png",9.76,138,"Guide_Tech_Logo_3a47af534d",20.31,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Guide_Tech_Logo_3a47af534d.png","2026-02-18T19:49:11.382Z","2026-02-18T19:49:25.998Z",{"id":410,"variation":66,"button":1279},[1280],{"id":1281,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1282,"newWindow":8,"downloadable":15,"shape":15},40,"https://www.guidetech.com/","-150",{"id":181,"name":1285,"description":89,"createdAt":1286,"updatedAt":1287,"publishedAt":1288,"url_path_id":1289,"logo":1290,"website":1322,"url_path":1327},"SpectraDynamics, Inc.","2026-02-25T15:38:48.462Z","2026-02-25T15:38:51.091Z","2026-02-25T15:38:51.080Z","191",{"id":1291,"name":1292,"alternativeText":15,"caption":15,"width":1293,"height":1294,"formats":1295,"hash":1318,"ext":714,"mime":717,"size":1319,"url":1320,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1321,"updatedAt":1321},114,"SDILogoConference2026.jpg",16500,6945,{"large":1296,"small":1302,"medium":1307,"thumbnail":1313},{"ext":714,"url":1297,"hash":1298,"mime":717,"name":1299,"path":15,"size":1300,"width":37,"height":1301},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_SDI_Logo_Conference2026_db75c24822.jpg","large_SDI_Logo_Conference2026_db75c24822","large_SDILogoConference2026.jpg",31.55,421,{"ext":714,"url":1303,"hash":1304,"mime":717,"name":1305,"path":15,"size":1306,"width":44,"height":662},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_SDI_Logo_Conference2026_db75c24822.jpg","small_SDI_Logo_Conference2026_db75c24822","small_SDILogoConference2026.jpg",13.91,{"ext":714,"url":1308,"hash":1309,"mime":717,"name":1310,"path":15,"size":1311,"width":51,"height":1312},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_SDI_Logo_Conference2026_db75c24822.jpg","medium_SDI_Logo_Conference2026_db75c24822","medium_SDILogoConference2026.jpg",23.34,316,{"ext":714,"url":1314,"hash":1315,"mime":717,"name":1316,"path":15,"size":1317,"width":58,"height":251},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_SDI_Logo_Conference2026_db75c24822.jpg","thumbnail_SDI_Logo_Conference2026_db75c24822","thumbnail_SDILogoConference2026.jpg",6.09,"SDI_Logo_Conference2026_db75c24822",1120.68,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/SDI_Logo_Conference2026_db75c24822.jpg","2026-02-25T15:38:19.886Z",{"id":1281,"variation":66,"button":1323},[1324],{"id":1325,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1326,"newWindow":8,"downloadable":15,"shape":15},41,"https://spectradynamics.com/","-151",{"id":259,"name":1329,"description":89,"createdAt":1330,"updatedAt":1331,"publishedAt":1332,"url_path_id":1333,"logo":1334,"website":1367,"url_path":1371},"IMRA America Inc.","2026-03-02T22:35:35.079Z","2026-03-02T22:36:15.651Z","2026-03-02T22:36:15.626Z","193",{"id":855,"name":1335,"alternativeText":15,"caption":15,"width":1336,"height":1337,"formats":1338,"hash":1363,"ext":714,"mime":717,"size":1364,"url":1365,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1366,"updatedAt":1366},"CURRENTIMRAlogo.jpg",2890,1106,{"large":1339,"small":1345,"medium":1351,"thumbnail":1357},{"ext":714,"url":1340,"hash":1341,"mime":717,"name":1342,"path":15,"size":1343,"width":37,"height":1344},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_CURRENTIMR_Alogo_e2456cbb35.jpg","large_CURRENTIMR_Alogo_e2456cbb35","large_CURRENTIMRAlogo.jpg",20.8,383,{"ext":714,"url":1346,"hash":1347,"mime":717,"name":1348,"path":15,"size":1349,"width":44,"height":1350},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_CURRENTIMR_Alogo_e2456cbb35.jpg","small_CURRENTIMR_Alogo_e2456cbb35","small_CURRENTIMRAlogo.jpg",9.51,191,{"ext":714,"url":1352,"hash":1353,"mime":717,"name":1354,"path":15,"size":1355,"width":51,"height":1356},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_CURRENTIMR_Alogo_e2456cbb35.jpg","medium_CURRENTIMR_Alogo_e2456cbb35","medium_CURRENTIMRAlogo.jpg",14.94,287,{"ext":714,"url":1358,"hash":1359,"mime":717,"name":1360,"path":15,"size":1361,"width":58,"height":1362},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_CURRENTIMR_Alogo_e2456cbb35.jpg","thumbnail_CURRENTIMR_Alogo_e2456cbb35","thumbnail_CURRENTIMRAlogo.jpg",4.65,94,"CURRENTIMR_Alogo_e2456cbb35",72.11,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/CURRENTIMR_Alogo_e2456cbb35.jpg","2026-03-02T22:34:43.906Z",{"id":909,"variation":66,"button":1368},[1369],{"id":887,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1370,"newWindow":8,"downloadable":15,"shape":15},"https://www.imra.com/","-152",{"id":245,"name":867,"description":89,"createdAt":1373,"updatedAt":1374,"publishedAt":1375,"url_path_id":1376,"logo":1377,"website":1408,"url_path":1413},"2026-03-03T21:04:36.031Z","2026-03-03T21:04:49.669Z","2026-03-03T21:04:49.662Z","194",{"id":1378,"name":1379,"alternativeText":15,"caption":15,"width":1380,"height":1381,"formats":1382,"hash":1404,"ext":18,"mime":19,"size":1405,"url":1406,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1407,"updatedAt":1407},121,"VescentLogov1.png",3500,1052,{"large":1383,"small":1389,"medium":1394,"thumbnail":1399},{"ext":18,"url":1384,"hash":1385,"mime":19,"name":1386,"path":15,"size":1387,"width":37,"height":1388},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_Vescent_Logov1_2f2367d9b6.png","large_Vescent_Logov1_2f2367d9b6","large_VescentLogov1.png",22.54,301,{"ext":18,"url":1390,"hash":1391,"mime":19,"name":1392,"path":15,"size":1393,"width":44,"height":1156},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Vescent_Logov1_2f2367d9b6.png","small_Vescent_Logov1_2f2367d9b6","small_VescentLogov1.png",11.58,{"ext":18,"url":1395,"hash":1396,"mime":19,"name":1397,"path":15,"size":1398,"width":51,"height":1162},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Vescent_Logov1_2f2367d9b6.png","medium_Vescent_Logov1_2f2367d9b6","medium_VescentLogov1.png",17.4,{"ext":18,"url":1400,"hash":1401,"mime":19,"name":1402,"path":15,"size":1403,"width":58,"height":1168},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Vescent_Logov1_2f2367d9b6.png","thumbnail_Vescent_Logov1_2f2367d9b6","thumbnail_VescentLogov1.png",5.35,"Vescent_Logov1_2f2367d9b6",19.3,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Vescent_Logov1_2f2367d9b6.png","2026-03-03T21:04:09.245Z",{"id":1409,"variation":66,"button":1410},43,[1411],{"id":1412,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":892,"newWindow":8,"downloadable":15,"shape":15},45,"-153",{"id":239,"name":1415,"description":89,"createdAt":1416,"updatedAt":1417,"publishedAt":1418,"url_path_id":1419,"logo":1420,"website":1453,"url_path":1458},"The Institute for NanoSystems Innovation at Northeastern University","2026-03-13T19:19:24.058Z","2026-03-13T19:21:13.850Z","2026-03-13T19:21:13.838Z","197",{"id":1421,"name":1422,"alternativeText":15,"caption":15,"width":1423,"height":1424,"formats":1425,"hash":1449,"ext":18,"mime":19,"size":1450,"url":1451,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1452,"updatedAt":1452},124,"TheInstituteforNanoSystemsInnovationRGBMonogr.png",2026,751,{"large":1426,"small":1432,"medium":1437,"thumbnail":1443},{"ext":18,"url":1427,"hash":1428,"mime":19,"name":1429,"path":15,"size":1430,"width":37,"height":1431},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6.png","large_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6","large_TheInstituteforNanoSystemsInnovationRGBMonogr.png",33.55,371,{"ext":18,"url":1433,"hash":1434,"mime":19,"name":1435,"path":15,"size":1436,"width":44,"height":754},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6.png","small_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6","small_TheInstituteforNanoSystemsInnovationRGBMonogr.png",14.5,{"ext":18,"url":1438,"hash":1439,"mime":19,"name":1440,"path":15,"size":1441,"width":51,"height":1442},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6.png","medium_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6","medium_TheInstituteforNanoSystemsInnovationRGBMonogr.png",23.86,278,{"ext":18,"url":1444,"hash":1445,"mime":19,"name":1446,"path":15,"size":1447,"width":58,"height":1448},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6.png","thumbnail_The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6","thumbnail_TheInstituteforNanoSystemsInnovationRGBMonogr.png",5.97,91,"The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6",17.47,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/The_Institutefor_Nano_Systems_Innovation_RGB_Monogr_3eb0fc8eb6.png","2026-03-13T19:19:18.327Z",{"id":890,"variation":66,"button":1454},[1455],{"id":1456,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1457,"newWindow":8,"downloadable":15,"shape":15},50,"https://coe.northeastern.edu/coe-research/research-centers-institutes/institute-for-nanosystems-innovation/","-154",{"id":279,"name":1460,"description":89,"createdAt":1461,"updatedAt":1462,"publishedAt":1463,"url_path_id":1464,"logo":1465,"website":1490,"url_path":1496},"University of Florida","2026-03-20T20:00:34.453Z","2026-03-20T20:00:36.890Z","2026-03-20T20:00:36.881Z","198",{"id":1466,"name":1467,"alternativeText":15,"caption":15,"width":1468,"height":1469,"formats":1470,"hash":1486,"ext":18,"mime":19,"size":1487,"url":1488,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1489,"updatedAt":1489},125,"UFFQI.png",931,247,{"small":1471,"medium":1476,"thumbnail":1481},{"ext":18,"url":1472,"hash":1473,"mime":19,"name":1474,"path":15,"size":1475,"width":44,"height":1095},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_UFFQI_f871760cda.png","small_UFFQI_f871760cda","small_UFFQI.png",23.78,{"ext":18,"url":1477,"hash":1478,"mime":19,"name":1479,"path":15,"size":1480,"width":51,"height":642},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_UFFQI_f871760cda.png","medium_UFFQI_f871760cda","medium_UFFQI.png",40.68,{"ext":18,"url":1482,"hash":1483,"mime":19,"name":1484,"path":15,"size":1485,"width":58,"height":1106},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_UFFQI_f871760cda.png","thumbnail_UFFQI_f871760cda","thumbnail_UFFQI.png",8.8,"UFFQI_f871760cda",11.2,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/UFFQI_f871760cda.png","2026-03-20T19:59:56.710Z",{"id":1491,"variation":66,"button":1492},47,[1493],{"id":1494,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1495,"newWindow":8,"downloadable":15,"shape":15},51,"https://faculty.eng.ufl.edu/fqi/","-155",{"id":437,"name":1498,"description":89,"createdAt":1499,"updatedAt":1500,"publishedAt":1501,"url_path_id":1502,"logo":1503,"website":1524,"url_path":1529},"Polytec ","2026-04-07T16:16:20.883Z","2026-04-07T16:16:41.456Z","2026-04-07T16:16:41.432Z","202",{"id":1504,"name":1505,"alternativeText":15,"caption":15,"width":1506,"height":1507,"formats":1508,"hash":1519,"ext":714,"mime":717,"size":1520,"url":1521,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1522,"updatedAt":1523},126,"polkgelb25m100y.jpg",606,209,{"small":1509,"thumbnail":1514},{"ext":714,"url":1510,"hash":1511,"mime":717,"name":1512,"path":15,"size":1513,"width":44,"height":775},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_polkgelb25m100y_62f2815857.jpg","small_polkgelb25m100y_62f2815857","small_polkgelb25m100y.jpg",8.21,{"ext":714,"url":1515,"hash":1516,"mime":717,"name":1517,"path":15,"size":1518,"width":58,"height":787},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_polkgelb25m100y_62f2815857.jpg","thumbnail_polkgelb25m100y_62f2815857","thumbnail_polkgelb25m100y.jpg",3.47,"polkgelb25m100y_62f2815857",9.78,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/polkgelb25m100y_62f2815857.jpg","2026-04-06T18:47:03.584Z","2026-04-06T18:48:43.163Z",{"id":1525,"variation":66,"button":1526},48,[1527],{"id":1069,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1528,"newWindow":8,"downloadable":15,"shape":15},"https://www.polytec.com/","-157",{"id":350,"name":1531,"description":89,"createdAt":1532,"updatedAt":1533,"publishedAt":1534,"url_path_id":1535,"logo":1536,"website":1569,"url_path":1575},"IEEE MEMS Technical Community","2026-04-15T22:42:17.542Z","2026-04-15T22:42:20.464Z","2026-04-15T22:42:20.448Z","203",{"id":1205,"name":1537,"alternativeText":15,"caption":15,"width":1538,"height":1539,"formats":1540,"hash":1565,"ext":18,"mime":19,"size":1566,"url":1567,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1568,"updatedAt":1568},"IEEE MEMS Technical Community.png",1318,636,{"large":1541,"small":1547,"medium":1553,"thumbnail":1559},{"ext":18,"url":1542,"hash":1543,"mime":19,"name":1544,"path":15,"size":1545,"width":37,"height":1546},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_IEEE_MEMS_Technical_Community_cafe7dbf87.png","large_IEEE_MEMS_Technical_Community_cafe7dbf87","large_IEEE MEMS Technical Community.png",49.33,483,{"ext":18,"url":1548,"hash":1549,"mime":19,"name":1550,"path":15,"size":1551,"width":44,"height":1552},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_IEEE_MEMS_Technical_Community_cafe7dbf87.png","small_IEEE_MEMS_Technical_Community_cafe7dbf87","small_IEEE MEMS Technical Community.png",25.03,241,{"ext":18,"url":1554,"hash":1555,"mime":19,"name":1556,"path":15,"size":1557,"width":51,"height":1558},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_IEEE_MEMS_Technical_Community_cafe7dbf87.png","medium_IEEE_MEMS_Technical_Community_cafe7dbf87","medium_IEEE MEMS Technical Community.png",37.27,362,{"ext":18,"url":1560,"hash":1561,"mime":19,"name":1562,"path":15,"size":1563,"width":58,"height":1564},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_IEEE_MEMS_Technical_Community_cafe7dbf87.png","thumbnail_IEEE_MEMS_Technical_Community_cafe7dbf87","thumbnail_IEEE MEMS Technical Community.png",13.43,118,"IEEE_MEMS_Technical_Community_cafe7dbf87",10.97,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/IEEE_MEMS_Technical_Community_cafe7dbf87.png","2026-04-15T22:41:46.924Z",{"id":1570,"variation":66,"button":1571},49,[1572],{"id":1573,"label":891,"size":70,"color":71,"style":15,"icon":78,"iconPosition":73,"url":1574,"newWindow":8,"downloadable":15,"shape":15},53,"https://ieeememstc.org/","-158",{"pagination":1577},{"page":5,"pageSize":239,"pageCount":85,"total":437},{"id":181,"heading":265,"pageHeader":1579,"sections":1581},{"id":181,"description":15,"showPageHeader":8,"backgroundColor":1580,"image":15},"primary",[1582,1588],{"id":1583,"__component":1584,"componentVariation":1585,"styles":15,"header":15,"body":1586},56,"content.content","Content Image Left",{"id":1006,"title":15,"body":1587,"containerWidth":15,"buttonGroup":15,"media":15},"\u003Cfigure class=\"table\">\u003Ctable>\u003Ctbody>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 60%);\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Presenter\u003C/strong>\u003C/p>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 60%);border-left-style:none;\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Affiliation\u003C/strong>\u003C/p>\u003C/td>\u003Ctd style=\"background-color:hsl(0, 0%, 60%);border-left-style:none;\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Presentation Title\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 90%);\" colspan=\"3\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Group 7.1\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"height:14.5pt;width:223pt;\">Linda Peroux\u003C/td>\u003Ctd style=\"height:14.5pt;width:182pt;\">Centrale Lille, France\u003C/td>\u003Ctd style=\"height:14.5pt;width:742pt;\">Advancements in Microfabricated Vapor Cells for Atomic Devices\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Peter Riley\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">NIST, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">A Fully Scalable Platform for near-Field and far-Field Interactions in Alkali Vapor - Photonic Integrated Circuits\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 90%);\" colspan=\"3\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Group 7.2\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Claudio Calosso\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">INRIM0, Italy\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">An Accessible Mathematical Framework for the Ensemble Option in the Redefinition of the Si Second\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Ekkehard Peik\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">PTB, Germany\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Towards a redefinition of the second: Analysis of Options\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 90%);\" colspan=\"3\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Group 7.3\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Franz Kaertner\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">DESY, Germany\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">High power continuous-wave and short pulse lasers in silicon photonics\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Douglas Paul\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">University of Glasgow, Scotland\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Photonic Integrated Circuit Requirements for Chip-scale Atomic Systems\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">William Loh\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">MIT, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Reaching for the Limits of Laser Noise on Chip\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Tobias Kippenberg\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">EPFL, Switzerland\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Ultra Low Loss Silicon Nitride Integrated Photonics: From Frequency Agile Low Noise Lasers, Microcombs to Femtosecond Lasers on Chip\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Dan Blumenthal\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">USCB, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Photonic Integrated Stabilized Lasers and Control for Neutral Atom and Trapped Ion Quantum Timing and Sensing\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Franklyn Quinlan\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">NIST, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Miniaturized ultrastable laser systems\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Antonio Cutrona\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Loughborough University, UK\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Laser Cavity-Solitons: Robust Dynamics and Metrology Properties\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Kerry Vahala\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Caltech, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Bringing High-Coherence Visible Light On Chip Using High-Q Micro-resonators\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 90%);\" colspan=\"3\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Group 7.4\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Wan-Thai Hsu\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Soundskrit, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">MEMS vs Quartz – Rivalry or Symbiotic Growth?\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Aaron Partridge\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">SiTime, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">A wave of applications is driving timing\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Ernest Ting-Ta Yen\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Texas Instruments, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">A Compact Low-Jitter Oscillator Utilizing 2.5 GHz Mirror-Encapsulated BAW Resonator\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Travis Autry\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">HRL, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Chip Scale Devices for Fieldable Timing\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 90%);\" colspan=\"3\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Group 7.5\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Ruochen Lu\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">University of Texas, Austin, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Phononic Frequency Combs in Thin-Film Lithium Niobate Acoustic Resonators\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Wei-Chang Li\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">National Taiwan University, Taiwan\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Multifunctional Internal Resonance-Induced Frequency Combs in CMOS-MEMS\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Eihab Abdel-Rahman\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">University of Waterloo, CA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">MEMS-Based Frequency Combs: Lessons and Pitfalls\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Azadeh Ansari\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">GeorgiaTach, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Piezoelectric Nanomechanical Frequency Combs for Sensing Applications\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Steven Shaw\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">FIT, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">A Nonlinear Dynamics Perspective of Phononic Frequency Combs\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Mingyo Park\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Pennsylvania State University, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Phononic Frequency Comb Generation via Nonlinear Modal Interactions in Piezoelectric MEMS\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"background-color:hsl(0, 0%, 90%);\" colspan=\"3\">\u003Cp style=\"text-align:center;\">\u003Cstrong>Group 7.6\u003C/strong>\u003C/p>\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">David Lin\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Geaerospace, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">In-situ Trained MEMS-based Analog Neural Network\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:29.0pt;\">Christian Cassella\u003C/td>\u003Ctd style=\"border-top-style:none;height:29.0pt;\">Northeeastern University, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:29.0pt;width:742pt;\">Microelectromechanical Systems-based Ising Systems for Solving NP-Hard Combinatorial Optimization Problems and for Wireless\u003Cbr> Sensing in the AI-enhanced IoT Era.\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Aadhi Rahim\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">Quzens University, CA\u003C/td>\u003Ctd style=\"border-top-style:none;height:14.5pt;\">A Hopfield-Inspired 212-GOPS Large-Scale Integrated Photonic Ising Machine\u003C/td>\u003C/tr>\u003Ctr>\u003Ctd style=\"border-top-style:none;height:15.0pt;\">Nikhil Shukla\u003C/td>\u003Ctd style=\"border-top-style:none;height:15.0pt;\">Virginia, USA\u003C/td>\u003Ctd style=\"border-top-style:none;height:15.0pt;\">From analog oscillator dynamics to efficient combinatorial optimization solvers\u003C/td>\u003C/tr>\u003C/tbody>\u003C/table>\u003C/figure>",{"id":138,"__component":1589,"componentVariation":1590,"contactsVariation":1591,"styles":15,"header":15,"sessionsGroup":1592},"content.sessions","Sessions Base","Card Contact Base",[1593,1699,1786,2097,2207,2402],{"id":489,"groupTitle":1594,"sessions":1595},"7.1 Vapor Cell Technologies for Quantum Clocks and Sensors",[1596,1647],{"id":1409,"session":1597},{"id":1281,"title":1598,"teaser":1599,"body":89,"createdAt":1600,"updatedAt":1601,"publishedAt":1602,"url_path_id":1603,"contacts":1604,"url_path":1646},"Advancements in Microfabricated Vapor Cells for Atomic Devices","\u003Cp>Microfabricated alkali vapor cells are an asset for compact atomic devices but are limited by traditional sealing methods and single-axis optical designs. This work introduces two scalable solutions. First, we present an approach for collectively filling and sealing cesium cells, potentially supporting higher purity and compatibility with anti-relaxation coatings. Then, we report a wafer-level method that creates three orthogonal optical paths using laser-assisted etched glass and thermal reflow. \u003C/p>","2026-02-09T23:16:02.621Z","2026-02-09T23:16:04.825Z","2026-02-09T23:16:04.820Z","164",[1605],{"id":605,"name":1606,"committee":15,"position":15,"affiliation":1607,"email":15,"biography":1608,"createdAt":1609,"updatedAt":1610,"url_path_id":1611,"contactPhoto":1612,"socialLinks":1644,"url_path":1645},"Linda Peroux","Centrale Lille, France","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(0,0,0);\">Linda Péroux is completing her PhD at IEMN (Lille, France) in collaboration with FEMTO-ST (Besançon, France), where she works on developments for miniature atomic magnetometry. Her research focuses on microfabricated alkali vapor cells for atomic devices, addressing limitations associated with high-temperature sealing processes and single-axis optical designs.\u003C/span>\u003C/p>","2026-02-09T23:08:49.126Z","2026-02-11T15:21:59.497Z","148",{"id":930,"name":1613,"alternativeText":15,"caption":15,"width":1614,"height":1615,"formats":1616,"hash":1640,"ext":714,"mime":717,"size":1641,"url":1642,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1643,"updatedAt":1643},"photo_peroux.jpg",3840,4032,{"large":1617,"small":1622,"medium":1628,"thumbnail":1634},{"ext":714,"url":1618,"hash":1619,"mime":717,"name":1620,"path":15,"size":1212,"width":1621,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_photo_peroux_45dfaf696e.jpg","large_photo_peroux_45dfaf696e","large_photo_peroux.jpg",952,{"ext":714,"url":1623,"hash":1624,"mime":717,"name":1625,"path":15,"size":1626,"width":1627,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_photo_peroux_45dfaf696e.jpg","small_photo_peroux_45dfaf696e","small_photo_peroux.jpg",27.81,476,{"ext":714,"url":1629,"hash":1630,"mime":717,"name":1631,"path":15,"size":1632,"width":1633,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_photo_peroux_45dfaf696e.jpg","medium_photo_peroux_45dfaf696e","medium_photo_peroux.jpg",55.34,714,{"ext":714,"url":1635,"hash":1636,"mime":717,"name":1637,"path":15,"size":1638,"width":1639,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_photo_peroux_45dfaf696e.jpg","thumbnail_photo_peroux_45dfaf696e","thumbnail_photo_peroux.jpg",4.56,149,"photo_peroux_45dfaf696e",973.52,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/photo_peroux_45dfaf696e.jpg","2026-02-11T15:21:56.195Z",[],"-111","-126",{"id":887,"session":1648},{"id":1325,"title":1649,"teaser":1650,"body":89,"createdAt":1651,"updatedAt":1652,"publishedAt":1653,"url_path_id":1654,"contacts":1655,"url_path":1698},"A Fully Scalable Platform for near-Field and far-Field Interactions in Alkali Vapor - Photonic Integrated Circuits","\u003Cp>We present a fully-integrated, scalable platform for the integration of photonic integrated circuits (PICs) and microfabricated atomic vapor cells. We demonstrate the device performance by interrogation of the rubidium D2 lines via free-space, grating-coupled, and evanescent spectroscopy. \u003C/p>","2026-02-09T23:18:44.229Z","2026-02-09T23:18:49.035Z","2026-02-09T23:18:49.029Z","165",[1656],{"id":1583,"name":1657,"committee":15,"position":15,"affiliation":1658,"email":15,"biography":1659,"createdAt":1660,"updatedAt":1661,"url_path_id":1662,"contactPhoto":1663,"socialLinks":1696,"url_path":1697},"Peter Riley","NIST, USA","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(0,0,0);\">Peter Riley is a PhD candidate from the University of Colorado Boulder in collaboration with the National Institute of Standards and Technology (NIST). He is part of the Atomic Devices and Instrumentation group at NIST, where his research focuses on the integration of microfabricated alkali vapor cells with photonic integrated circuits for next-generation atomic sensors and timing devices. His work aims to enable scalable, chip-scale quantum and atomic technologies.\u003C/span>\u003C/p>","2026-02-09T23:09:05.259Z","2026-02-13T16:35:51.221Z","149",{"id":1664,"name":1665,"alternativeText":15,"caption":15,"width":1666,"height":1667,"formats":1668,"hash":1692,"ext":18,"mime":19,"size":1693,"url":1694,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1695,"updatedAt":1695},99,"propic.png",1206,1412,{"large":1669,"small":1675,"medium":1681,"thumbnail":1687},{"ext":18,"url":1670,"hash":1671,"mime":19,"name":1672,"path":15,"size":1673,"width":1674,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_propic_194046968b.png","large_propic_194046968b","large_propic.png",1433.84,854,{"ext":18,"url":1676,"hash":1677,"mime":19,"name":1678,"path":15,"size":1679,"width":1680,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_propic_194046968b.png","small_propic_194046968b","small_propic.png",391.18,427,{"ext":18,"url":1682,"hash":1683,"mime":19,"name":1684,"path":15,"size":1685,"width":1686,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_propic_194046968b.png","medium_propic_194046968b","medium_propic.png",830.41,641,{"ext":18,"url":1688,"hash":1689,"mime":19,"name":1690,"path":15,"size":1691,"width":1095,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_propic_194046968b.png","thumbnail_propic_194046968b","thumbnail_propic.png",48.39,"propic_194046968b",544.81,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/propic_194046968b.png","2026-02-13T16:35:47.942Z",[],"-112","-127",{"id":404,"groupTitle":1700,"sessions":1701},"7.2 Pathway to the New Definition of the SI Second",[1702,1733],{"id":1412,"session":1703},{"id":909,"title":1704,"teaser":1705,"body":89,"createdAt":1706,"updatedAt":1707,"publishedAt":1708,"url_path_id":1709,"contacts":1710,"url_path":1732},"An Accessible Mathematical Framework for the Ensemble Option in the Redefinition of the Si Second","\u003Cp> We present a simple framework for the ensemble option (Option 2) in the redefinition of the SI second, showing that it corresponds to fixing the barycenter of a constellation of residuals associated with the contributing transitions when expressed in fractional frequency deviations. This linear formulation clarifies the definition, enables straightforward uncertainty propagation using the CCTF recommended frequencies, and naturally supports a full ensemble-based realization of the SI second. \u003C/p>","2026-02-09T23:19:17.317Z","2026-02-09T23:19:31.134Z","2026-02-09T23:19:31.121Z","166",[1711],{"id":279,"name":1712,"committee":15,"position":15,"affiliation":1713,"email":15,"biography":89,"createdAt":1714,"updatedAt":1715,"url_path_id":1716,"contactPhoto":1717,"socialLinks":1730,"url_path":1731},"Claudio Calosso","INRIM, Italy","2025-12-22T21:30:47.133Z","2026-01-07T18:21:13.174Z","69",{"id":890,"name":1718,"alternativeText":15,"caption":15,"width":1719,"height":982,"formats":1720,"hash":1726,"ext":18,"mime":19,"size":1727,"url":1728,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1729,"updatedAt":1729},"Picture1.png",290,{"thumbnail":1721},{"ext":18,"url":1722,"hash":1723,"mime":19,"name":1724,"path":15,"size":1725,"width":1466,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Picture1_297e7cc751.png","thumbnail_Picture1_297e7cc751","thumbnail_Picture1.png",38.36,"Picture1_297e7cc751",47.62,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Picture1_297e7cc751.png","2026-01-07T18:21:09.434Z",[],"-38","-128",{"id":890,"session":1734},{"id":279,"title":1735,"teaser":1736,"body":89,"createdAt":1737,"updatedAt":1738,"publishedAt":1739,"url_path_id":1740,"contacts":1741,"url_path":1785},"Towards a redefinition of the second: Analysis of Options","\u003Cp> This presentation on behalf of the CCTF Task Force on the Roadmap to the Redefinition of the Second will give an update on the work of the task force. The mission is to provide an analysis of the different types of options for the redefinition and of the specific atomic transitions and species that might be used to implement these options. \u003C/p>","2026-02-09T22:22:04.032Z","2026-02-09T23:20:08.110Z","2026-02-09T23:20:08.104Z","123",[1742],{"id":1409,"name":1743,"committee":15,"position":15,"affiliation":1744,"email":15,"biography":1745,"createdAt":1746,"updatedAt":1746,"url_path_id":1747,"contactPhoto":1748,"socialLinks":1783,"url_path":1784},"Ekkehard Peik","PTB, Germany","\u003Cp>Ekkehard Peik is head of the Department Time and Frequency at PTB, Germany’s National\u003Cbr>Metrology Institute in Braunschweig. He studied physics in Göttingen and Munich, obtaining the Diploma (1988) and PhD degree (1993) for experiments on laser cooling of trapped ions and an optical frequency standard. After a postdoctoral fellowship at Ecole Normale Supérieure in Paris (1994-1996) he returned to Munich where he obtained the habilitation in 1999. He joined PTB in 2001 as scientific staff, became leader of the working group “Optical clocks with trapped ions” in 2003 and head of the Time and Frequency Department in 2007.\u003Cbr>The main topics of his research are optical clocks with trapped ions, the low-energy nuclear transition in Th-229 as a nuclear clock, and the use of clocks in tests of fundamental principles of physics. He is member of international committees on metrology, concerned\u003Cbr>with time scales and a new definition of the SI second. He has received the European Frequency and Time Award in 2018, the I. I. Rabi Award of IEEE in 2021 and has been on the list of “Nature’s 10”: Ten People who shaped science in 2024.\u003C/p>","2026-02-09T22:21:42.426Z","122",{"id":1749,"name":1750,"alternativeText":15,"caption":15,"width":1751,"height":1752,"formats":1753,"hash":1778,"ext":714,"mime":717,"size":1779,"url":1780,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1781,"updatedAt":1782},92,"D2916_001.jpg",1120,1186,{"large":1754,"small":1760,"medium":1766,"thumbnail":1772},{"ext":714,"url":1755,"hash":1756,"mime":717,"name":1757,"path":15,"size":1758,"width":1759,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_D2916_001_84b0e2bf9d.jpg","large_D2916_001_84b0e2bf9d","large_D2916_001.jpg",152.68,944,{"ext":714,"url":1761,"hash":1762,"mime":717,"name":1763,"path":15,"size":1764,"width":1765,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_D2916_001_84b0e2bf9d.jpg","small_D2916_001_84b0e2bf9d","small_D2916_001.jpg",49.43,472,{"ext":714,"url":1767,"hash":1768,"mime":717,"name":1769,"path":15,"size":1770,"width":1771,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_D2916_001_84b0e2bf9d.jpg","medium_D2916_001_84b0e2bf9d","medium_D2916_001.jpg",95.1,708,{"ext":714,"url":1773,"hash":1774,"mime":717,"name":1775,"path":15,"size":1776,"width":1777,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_D2916_001_84b0e2bf9d.jpg","thumbnail_D2916_001_84b0e2bf9d","thumbnail_D2916_001.jpg",7.98,148,"D2916_001_84b0e2bf9d",202.83,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/D2916_001_84b0e2bf9d.jpg","2026-02-09T22:20:45.177Z","2026-02-09T22:21:08.700Z",[],"-85","-86",{"id":167,"groupTitle":1787,"sessions":1788},"7.3 Chip-Scale Lasers and Photonics",[1789,1823,1858,1911,1961,2010,2056],{"id":1491,"session":1790},{"id":489,"title":1791,"teaser":1792,"body":89,"createdAt":1793,"updatedAt":1794,"publishedAt":1795,"url_path_id":1796,"contacts":1797,"url_path":1822},"High power continuous-wave and short pulse lasers in silicon photonics","\u003Cp> Integrated high power (Watt-level) sources are desired for frequency and time metrology and various other applications such as telecom, medical devices, and remote sensing. We use large-mode-area (LMA) gain waveguides in rare-earth doped gain media to achieve Watt-level output power devices on a SiN on insulator (SiNOI) fabrication platform. We demonstrate a DBR laser with more than 1 Watt output power and various other devices ranging from Q-switched lasers to on-chip mode-locked lasers. \u003C/p>","2026-01-26T21:50:23.130Z","2026-02-09T23:20:32.066Z","2026-01-26T21:51:48.304Z","92",[1798],{"id":298,"name":1799,"committee":15,"position":15,"affiliation":1800,"email":15,"biography":1801,"createdAt":1802,"updatedAt":1802,"url_path_id":1803,"contactPhoto":1804,"socialLinks":1820,"url_path":1821},"Franz X. Kärtner","University of Hamburg, Hamburg, Germany","\u003Cp>Franz Kärtner leads the Ultrafast Optics and X-rays Group at the Center for Free-Electron Laser Science at DESY and is Professor of Physics at Universität Hamburg. He received his Diploma and PhD-degrees in Electrical Engineering from Technische Universität München and his Venia Legendi in Experimental Physics from ETH-Zurich. He taught and carried out research at ETH-Zurich, Karlsruhe Institute of Technology and Massachusetts Institute of Technology before coming to Hamburg. His research interests include classical and quantum noise, few-cycle and ultralow jitter femtosecond lasers and sub-cycle optical waveform synthesizers, precision timing distribution and integrated optics, compact electron and x-ray sources, terahertz generation and acceleration and attosecond science. He founded the company Cycle GmbH, active in femtosecond precision timing. He is a Fellow of OPTICA and IEEE and was honored with the 2022 IEEE Laser Instrumentation Award and the UNIPRENEURS Award in 2023. \u003C/p>","2026-01-26T21:47:45.712Z","91",{"id":1805,"name":1806,"alternativeText":15,"caption":15,"width":1807,"height":1808,"formats":1809,"hash":1816,"ext":18,"mime":19,"size":1817,"url":1818,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1819,"updatedAt":1819},59,"Franz Kartner.png",262,372,{"thumbnail":1810},{"ext":18,"url":1811,"hash":1812,"mime":19,"name":1813,"path":15,"size":1814,"width":1815,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Franz_Kartner_a901aac594.png","thumbnail_Franz_Kartner_a901aac594","thumbnail_Franz Kartner.png",37.58,110,"Franz_Kartner_a901aac594",55.31,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Franz_Kartner_a901aac594.png","2026-01-26T21:47:25.336Z",[],"-56","-57",{"id":1570,"session":1824},{"id":1409,"title":1825,"teaser":1826,"body":89,"createdAt":1827,"updatedAt":1828,"publishedAt":1829,"url_path_id":1830,"contacts":1831,"url_path":1857},"Reaching for the Limits of Laser Noise on Chip","\u003Cp>We showcase the potential for ultralow-noise integrated photonic lasers based on seed laser stabilization to an on-chip spiral interferometer. We achieve a record low Allan deviation for an integrated-chip laser of 5.6×10^-14 corresponding to a linewidth of 12 Hz centered at 1348 nm. \u003C/p>","2026-02-09T23:21:36.736Z","2026-02-09T23:21:38.577Z","2026-02-09T23:21:38.569Z","167",[1832],{"id":989,"name":1833,"committee":15,"position":15,"affiliation":1834,"email":15,"biography":1835,"createdAt":1836,"updatedAt":1837,"url_path_id":1838,"contactPhoto":1839,"socialLinks":1855,"url_path":1856},"William Loh","MIT, USA","\u003Cp>William Loh received the B.S. degree in Electrical Engineering from the University of Michigan, Ann Arbor in 2007, and the M.S. and Ph.D. degrees in Electrical Engineering from the Massachusetts Institute of Technology (MIT) in 2009 and 2013, respectively. He was\u003Cbr>previously a NRC postdoctoral fellow at NIST and is currently a technical staff member of the Integrated RF & Photonics Group at the Massachusetts Institute of Technology Lincoln Laboratory. His research interests include the development of materials for ultralow-loss waveguiding, the generation of integrated ultranarrow linewidth lasers, harnessing the properties of nonlinear optical phenomena on chip, and the novel application of microwave photonics to unconventional problems. He is a\u003Cbr>senior member of IEEE and is the recipient of the MIT Siebel Foundation Scholarship in 2009, the IEEE Photonics Society Fellowship in 2012, the NRC Postdoctoral Fellowship in 2013, and the MIT LL Best Paper Award in 2021.\u003C/p>","2026-02-09T23:10:04.755Z","2026-02-12T17:44:20.222Z","150",{"id":1840,"name":1841,"alternativeText":15,"caption":15,"width":1842,"height":1843,"formats":1844,"hash":1851,"ext":714,"mime":717,"size":1852,"url":1853,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1854,"updatedAt":1854},97,"Picture1.jpg",379,284,{"thumbnail":1845},{"ext":714,"url":1846,"hash":1847,"mime":717,"name":1848,"path":15,"size":1849,"width":1850,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Picture1_c6f8dc5899.jpg","thumbnail_Picture1_c6f8dc5899","thumbnail_Picture1.jpg",9.32,208,"Picture1_c6f8dc5899",33.32,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Picture1_c6f8dc5899.jpg","2026-02-12T17:41:51.888Z",[],"-41","-129",{"id":1456,"session":1859},{"id":887,"title":1860,"teaser":1861,"body":89,"createdAt":1862,"updatedAt":1863,"publishedAt":1864,"url_path_id":1865,"contacts":1866,"url_path":1910},"Ultra Low Loss Silicon Nitride Integrated Photonics: From Frequency Agile Low Noise Lasers, Microcombs to Femtosecond Lasers on Chip","\u003Cp>Photonic integrated circuits based on silicon nitride have been developed that attain losses below 3dB/meter, unlocking applications from microcombs, frequency agile low noise lasers, to parametric amplfiers and femtosecond laser frequency combs on chip based on Erbium. \u003C/p>","2026-02-09T23:22:08.214Z","2026-02-09T23:22:10.009Z","2026-02-09T23:22:10.003Z","168",[1867],{"id":410,"name":1868,"committee":15,"position":15,"affiliation":1869,"email":15,"biography":1870,"createdAt":1871,"updatedAt":1871,"url_path_id":1872,"contactPhoto":1873,"socialLinks":1908,"url_path":1909},"Tobias Kippenberg","EPFL, Switzerland","\u003Cp>Tobias J. Kippenberg has been Full Professor in the Institute of Physics and Electrical Engineering at EPFL in Switzerland since 2013. He joined EPFL in 2008 as Tenure Track Assistant Professor. Prior to EPFL, he was the leader of an Independent Max Planck Junior Research group at the Max Planck Institute of Quantum Optics (MPQ) in Garching, Germany. While at the MPQ he demonstrated radiation pressure cooling of optical micro-resonators and developed techniques with which mechanical oscillators can be cooled, measured and manipulated in the quantum regime that are now part of the research field of Cavity Quantum Optomechanics. Moreover, his group discovered the generation of optical frequency combs using high Q micro-resonators, a principle known now as micro-combs or Kerr combs. This discovery unlocked record data transmission rate which led to the development of new concepts in telecommunications in collaborations with industry.  For his early contributions in these two research fields, he was recipient of the EFTF Award for Young Scientists (2011), The Helmholtz Prize in Metrology (2009), the EPS Fresnel Prize (2009), ICO Award (2014), Swiss Latsis Prize (2014), the Wilhelmy Klung Research Prize in Physics (2015), the 2018 ZEISS Research Award, the R.W. Wood Prize (2021) and the Marcel Benoist Prize (2025). Moreover, he is 1st prize recipient of the \"8th European Union Contest for Young Scientists\" in 1996. He has been ranked in the top 1% as a highly cited physicist by Clarivate Analytics since 2014. He is co-founder of the startups LIGENTEC SA, an integrated photonics foundry, DEEPLIGHT SA, a supplier of advanced laser sources, LUXTELLIGENCE SA, a thin-film lithium tantalate foundry, and EDWATEC SA, a company developing rareearth ion doped photonic integrated circuits for photonic integrated circuit-based Erbium amplifiers and lasers. Prof. Kippenberg has authored more than 280 papers. He is an elected member of the German National Academy of Sciences Leopoldina, the United States National Academy of Sciences (NAE), and the Swiss Academy of Engineering Sciences (SATW). \u003C/p>","2026-02-09T21:39:41.104Z","112",{"id":1874,"name":1875,"alternativeText":15,"caption":15,"width":1876,"height":1877,"formats":1878,"hash":1903,"ext":714,"mime":717,"size":1904,"url":1905,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1906,"updatedAt":1907},88,"KIPPENBERG_13A7908-WEB.jpg",1363,1735,{"large":1879,"small":1885,"medium":1891,"thumbnail":1897},{"ext":714,"url":1880,"hash":1881,"mime":717,"name":1882,"path":15,"size":1883,"width":1884,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_KIPPENBERG_13_A7908_WEB_e621fbf45a.jpg","large_KIPPENBERG_13_A7908_WEB_e621fbf45a","large_KIPPENBERG_13A7908-WEB.jpg",82.68,786,{"ext":714,"url":1886,"hash":1887,"mime":717,"name":1888,"path":15,"size":1889,"width":1890,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_KIPPENBERG_13_A7908_WEB_e621fbf45a.jpg","small_KIPPENBERG_13_A7908_WEB_e621fbf45a","small_KIPPENBERG_13A7908-WEB.jpg",27.9,393,{"ext":714,"url":1892,"hash":1893,"mime":717,"name":1894,"path":15,"size":1895,"width":1896,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_KIPPENBERG_13_A7908_WEB_e621fbf45a.jpg","medium_KIPPENBERG_13_A7908_WEB_e621fbf45a","medium_KIPPENBERG_13A7908-WEB.jpg",52.19,589,{"ext":714,"url":1898,"hash":1899,"mime":717,"name":1900,"path":15,"size":1901,"width":1902,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_KIPPENBERG_13_A7908_WEB_e621fbf45a.jpg","thumbnail_KIPPENBERG_13_A7908_WEB_e621fbf45a","thumbnail_KIPPENBERG_13A7908-WEB.jpg",4.86,123,"KIPPENBERG_13_A7908_WEB_e621fbf45a",193.85,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/KIPPENBERG_13_A7908_WEB_e621fbf45a.jpg","2026-02-09T21:37:59.193Z","2026-02-09T21:39:11.565Z",[],"-75","-130",{"id":1494,"session":1912},{"id":76,"title":1913,"teaser":1914,"body":89,"createdAt":1915,"updatedAt":1916,"publishedAt":1917,"url_path_id":1918,"contacts":1919,"url_path":1960},"Photonic Integrated Circuit Requirements for Chip-scale Atomic Systems","\u003Cp> The paper reviews the development of photonic integrated circuits integrated with MEMS vapor cells for atomic systems with examples of saturated absorption spectroscopy and cold-atoms in a MEMS cells as demonstrators. \u003C/p>","2026-01-26T18:11:35.958Z","2026-02-09T23:20:59.951Z","2026-01-26T21:52:12.436Z","90",[1920],{"id":305,"name":1921,"committee":15,"position":15,"affiliation":1922,"email":15,"biography":1923,"createdAt":1924,"updatedAt":1925,"url_path_id":1926,"contactPhoto":1927,"socialLinks":1958,"url_path":1959},"Douglas Paul","University of Glasgow, Scotland","\u003Cp>Douglas Paul has an MA degree in Physics and Theoretical Physics and a PhD from the Cavendish Laboratory, University of Cambridge, UK. He presently is Professor of Semiconductor Devices and holds a Royal Academy of Engineering Research Chair in Emerging Technologies at the University of Glasgow, UK. He is the principal investigator of the UK Hub for Quantum Enabled Position Navigation and Timing and a partner in the Integrated Quantum Network Hub. He has been involved in the UK Quantum Technology Programme from the start in 2014 and was a partner in 3 of the 4 Hubs in Phase II. Doug is a Fellow of the Royal Academy of Engineering, Fellow of the Royal Society of Edinburgh, Fellow of the Institute of Physics, a chartered physicist, a chartered engineer and a Senior Member of the IEEE. He was the recipient of the Institute of Physics President's Medal in 2014. Doug was awarded an Officer of the Order of the British Empire (OBE) in the 2025 New Years Honours for services to quantum technology research. His research interests include the heterogeneous integration of photonic integrated circuits and MEMS vapour cells for atomic systems, diode lasers for atomic systems, Ge on Si single photon avalanche diode (SPAD) photodetectors , MEMS gravimeters and mid-infrared photonic integrated circuits.\u003C/p>","2026-01-26T18:11:07.754Z","2026-02-09T23:50:54.601Z","89",{"id":605,"name":1928,"alternativeText":15,"caption":15,"width":1929,"height":1930,"formats":1931,"hash":1954,"ext":714,"mime":717,"size":1955,"url":1956,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":1957,"updatedAt":1957},"DougPaul.jpg",3714,3708,{"large":1932,"small":1937,"medium":1943,"thumbnail":1949},{"ext":714,"url":1933,"hash":1934,"mime":717,"name":1935,"path":15,"size":1936,"width":37,"height":1008},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_Doug_Paul_db2f843eb7.jpg","large_Doug_Paul_db2f843eb7","large_DougPaul.jpg",73.72,{"ext":714,"url":1938,"hash":1939,"mime":717,"name":1940,"path":15,"size":1941,"width":44,"height":1942},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Doug_Paul_db2f843eb7.jpg","small_Doug_Paul_db2f843eb7","small_DougPaul.jpg",23.4,499,{"ext":714,"url":1944,"hash":1945,"mime":717,"name":1946,"path":15,"size":1947,"width":51,"height":1948},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Doug_Paul_db2f843eb7.jpg","medium_Doug_Paul_db2f843eb7","medium_DougPaul.jpg",45.02,749,{"ext":714,"url":1950,"hash":1951,"mime":717,"name":1952,"path":15,"size":1953,"width":733,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Doug_Paul_db2f843eb7.jpg","thumbnail_Doug_Paul_db2f843eb7","thumbnail_DougPaul.jpg",4.46,"Doug_Paul_db2f843eb7",367.89,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Doug_Paul_db2f843eb7.jpg","2026-01-26T21:43:19.825Z",[],"-54","-55",{"id":1069,"session":1962},{"id":207,"title":1963,"teaser":1964,"body":89,"createdAt":1965,"updatedAt":1966,"publishedAt":1967,"url_path_id":1968,"contacts":1969,"url_path":2009},"Miniaturized ultrastable laser systems","\u003Cp> Compact ultrastable lasers have a variety of out-of-the-lab applications in low noise signal synthesis and sensing. We review our work in sub-1 mL vacuum-gap cavities that achieve 4x10-14 fractional frequency stability and on robust laser locking methods for chip-scale lasers. \u003C/p>","2026-01-26T18:07:38.862Z","2026-02-09T23:23:22.377Z","2026-01-26T21:52:00.074Z","88",[1970],{"id":149,"name":1971,"committee":15,"position":15,"affiliation":1658,"email":15,"biography":1972,"createdAt":1973,"updatedAt":1974,"url_path_id":1975,"contactPhoto":1976,"socialLinks":2007,"url_path":2008},"Franklyn Quinlan","\u003Cp>Franklyn Quinlan is a Physicist and Leader of the Precision Photonic Synthesis Group in the Time and Frequency Division at NIST in Boulder, CO.  His research focuses on the development of optical frequency combs and ultrastable optical frequency references, the photodetection of ultrashort optical pulses, optical pulse shaping, low noise microwave signal generation, and photonic interconnects to cryogenic platforms.\u003C/p>","2026-01-26T18:07:13.761Z","2026-02-09T23:03:43.675Z","87",{"id":1583,"name":1977,"alternativeText":15,"caption":15,"width":1978,"height":1979,"formats":1980,"hash":2003,"ext":714,"mime":717,"size":2004,"url":2005,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2006,"updatedAt":2006},"FQuinlan.jpg",1543,2033,{"large":1981,"small":1987,"medium":1992,"thumbnail":1998},{"ext":714,"url":1982,"hash":1983,"mime":717,"name":1984,"path":15,"size":1985,"width":1986,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_F_Quinlan_94ea4a0d0f.jpg","large_F_Quinlan_94ea4a0d0f","large_FQuinlan.jpg",146.14,759,{"ext":714,"url":1988,"hash":1989,"mime":717,"name":1990,"path":15,"size":1991,"width":1842,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_F_Quinlan_94ea4a0d0f.jpg","small_F_Quinlan_94ea4a0d0f","small_FQuinlan.jpg",46.85,{"ext":714,"url":1993,"hash":1994,"mime":717,"name":1995,"path":15,"size":1996,"width":1997,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_F_Quinlan_94ea4a0d0f.jpg","medium_F_Quinlan_94ea4a0d0f","medium_FQuinlan.jpg",91.2,569,{"ext":714,"url":1999,"hash":2000,"mime":717,"name":2001,"path":15,"size":2002,"width":1564,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_F_Quinlan_94ea4a0d0f.jpg","thumbnail_F_Quinlan_94ea4a0d0f","thumbnail_FQuinlan.jpg",6.8,"F_Quinlan_94ea4a0d0f",437.87,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/F_Quinlan_94ea4a0d0f.jpg","2026-01-26T21:43:43.991Z",[],"-52","-53",{"id":1573,"session":2011},{"id":404,"title":2012,"teaser":2013,"body":89,"createdAt":2014,"updatedAt":2015,"publishedAt":15,"url_path_id":2016,"contacts":2017,"url_path":2055},"Laser Cavity-Solitons: Robust Dynamics and Metrology Properties","\u003Cp>Laser cavity-solitons (LCS) arise in nested laser–microresonator systems as self-localized pulsed states sustained by the interplay of Kerr nonlinearity, gain dynamics, and slow nonlocal effects. Here we review their properties, including robust and long-term operation and present our recent results on their metrological features\u003C/p>","2026-01-29T16:31:58.192Z","2026-02-09T23:23:46.316Z","99",[2018],{"id":613,"name":2019,"committee":15,"position":15,"affiliation":2020,"email":15,"biography":2021,"createdAt":2022,"updatedAt":2023,"url_path_id":2024,"contactPhoto":2025,"socialLinks":2053,"url_path":2054},"Antonio Cutrona","Loughborough University, UK","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(34,34,34);\">Antonio Cutrona is a Leverhulme Early Career Research Fellow at the Emergent Photonics Research Centre (EPICX), Loughborough University (UK). His research focuses on nonlinear and integrated photonics, with particular emphasis on microcombs, optical metrology, and optical-to-microwave frequency conversion, with applications in precision timing, frequency synthesis, and ranging.\u003C/span>\u003C/p>","2026-01-29T16:30:43.897Z","2026-02-09T23:49:38.426Z","98",{"id":1106,"name":2026,"alternativeText":15,"caption":15,"width":2027,"height":2028,"formats":2029,"hash":2049,"ext":2031,"mime":717,"size":2050,"url":2051,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2052,"updatedAt":2052},"Antonio-Photo.jpeg",800,811,{"small":2030,"medium":2037,"thumbnail":2043},{"ext":2031,"url":2032,"hash":2033,"mime":717,"name":2034,"path":15,"size":2035,"width":2036,"height":44},".jpeg","https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Antonio_Photo_496cd4b3f8.jpeg","small_Antonio_Photo_496cd4b3f8","small_Antonio-Photo.jpeg",26.45,493,{"ext":2031,"url":2038,"hash":2039,"mime":717,"name":2040,"path":15,"size":2041,"width":2042,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Antonio_Photo_496cd4b3f8.jpeg","medium_Antonio_Photo_496cd4b3f8","medium_Antonio-Photo.jpeg",51.82,740,{"ext":2031,"url":2044,"hash":2045,"mime":717,"name":2046,"path":15,"size":2047,"width":2048,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Antonio_Photo_496cd4b3f8.jpeg","thumbnail_Antonio_Photo_496cd4b3f8","thumbnail_Antonio-Photo.jpeg",4.58,154,"Antonio_Photo_496cd4b3f8",59.08,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Antonio_Photo_496cd4b3f8.jpeg","2026-01-29T16:30:36.837Z",[],"-62","-63",{"id":2057,"session":2058},54,{"id":558,"title":2059,"teaser":2060,"body":89,"createdAt":2061,"updatedAt":2062,"publishedAt":2063,"url_path_id":2064,"contacts":2065,"url_path":2096},"Bringing High-Coherence Visible Light On Chip Using High-Q Micro-resonators","\u003Cp>High-Q microresonators enable access to nonlinear optical phenomena at milliwatt power levels. This capability, now available on CMOS foundry lines, is enabling a new generation of remarkable chip-integrated devices and systems. Following a brief overview of their history and early nonlinear demonstrations, this presentation will highlight recent advances in devices and systems driven by high-Q microresonator technology. Particular emphasis will be placed on the discovery of the photogalvanic effect in silicon nitride, which has unlocked access to second-order nonlinearities in this workhorse photonic integration platform. This capability, previously restricted to non-centrosymmetric dielectrics, is combined with self-injection locking of near-IR telecom lasers to generate high-coherence visible light on chip. The recent demonstration of ultra-high-Q Ge–silica resonators in the visible and violet bands will also be discussed, enabling direct generation of high-coherence visible light. \u003C/p>","2026-01-26T18:02:50.727Z","2026-02-09T23:24:08.094Z","2026-01-26T21:51:32.270Z","86",[2066],{"id":461,"name":2067,"committee":15,"position":15,"affiliation":2068,"email":15,"biography":2069,"createdAt":2070,"updatedAt":2071,"url_path_id":2072,"contactPhoto":2073,"socialLinks":2094,"url_path":2095},"Kerry Vahala","Caltech, USA","\u003Cp>Kerry Vahala has pioneered nonlinear optics in high-Q optical microresonators, helping to establish a new field in modern photonics. He is a member of the National Academy of Engineering and a Fellow of both IEEE and Optica. Other honors include the Charles Hard Townes Medal from Optica for work on microresonators and nonlinear oscillators; the IEEE David Sarnoff Medal for research on quantum-well laser dynamics; the Alexander von Humboldt Award for advancements in ultra-high-Q optical microcavities; a NASA Achievement Award for the application of microcombs to exoplanet detection; and the Optica Paul F. Forman Team Engineering Excellence Award for the development of a two-photon optical clock.\u003C/p>","2026-01-26T18:02:27.659Z","2026-02-09T23:50:01.716Z","85",{"id":2074,"name":2075,"alternativeText":15,"caption":15,"width":2076,"height":2077,"formats":2078,"hash":2090,"ext":18,"mime":19,"size":2091,"url":2092,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2093,"updatedAt":2093},58,"Vahala_Photo.png",613,640,{"small":2079,"thumbnail":2085},{"ext":18,"url":2080,"hash":2081,"mime":19,"name":2082,"path":15,"size":2083,"width":2084,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Vahala_Photo_b02ba09961.png","small_Vahala_Photo_b02ba09961","small_Vahala_Photo.png",345.8,479,{"ext":18,"url":2086,"hash":2087,"mime":19,"name":2088,"path":15,"size":2089,"width":1639,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Vahala_Photo_b02ba09961.png","thumbnail_Vahala_Photo_b02ba09961","thumbnail_Vahala_Photo.png",43.32,"Vahala_Photo_b02ba09961",121.63,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Vahala_Photo_b02ba09961.png","2026-01-26T21:45:51.611Z",[],"-50","-51",{"id":220,"groupTitle":2098,"sessions":2099},"7.4 Industry Frontiers of Frequency Control",[2100,2139,2156],{"id":605,"session":2101},{"id":1491,"title":2102,"teaser":2103,"body":89,"createdAt":2104,"updatedAt":2105,"publishedAt":2106,"url_path_id":2107,"contacts":2108,"url_path":2138},"MEMS vs Quartz – Rivalry or Symbiotic Growth?","\u003Cp>This paper reviews the technical influences between MEMS and quartz crystal timing industries in the past two decades. The symbiotic growth between two very different technologies enabled smaller, better, cheaper, and more reliable timing devices.\u003Cbr> \u003C/p>","2026-02-09T23:26:34.782Z","2026-03-04T22:10:15.056Z","2026-02-09T23:26:36.634Z","171",[2109],{"id":1805,"name":2110,"committee":15,"position":15,"affiliation":2111,"email":15,"biography":2112,"createdAt":2113,"updatedAt":2114,"url_path_id":2115,"contactPhoto":2116,"socialLinks":2136,"url_path":2137},"Wan-Thai Hsu","Soundskrit, USA","\u003Cp>Dr. Wan-Thai Hsu received a Ph.D. in Electrical Engineering and an MBA from the University of Michigan. Over the past 25 years, his work in MEMS and semiconductor technologies has been recognized globally, earning him prestigious awards, such as the EE Times ACE Innovator of the Year Award (2007) and IEEE CB Sawyer Award (2015). He has held various positions of critical importance in startups as well as publicly traded\u003Cbr>companies, including CTO of Discera, CTO of MEMS at Micrel (now Microchip), CTO of TXC, CEO of Siliconquartz, and Chairman of the Board at Stathera. He chaired the annual IEEE Frequency Control Symposium in 2014 and co-chaired the decennial IEEE UFFC Joint Symposium in 2024.\u003C/p>\u003Cp>\u003Cbr>Currently, Dr. Hsu is the Chief Technology Officer at Soundskrit, which aims to develop bio-inspired MEMS audio systems to provide the capability not only to capture sound with high quality, but also to distinguish sound localization. He leads the design, product development, manufacturing, packaging, and production testing to actualize high performance MEMS directional microphones. Soundskrit therefore was named the top 100 startups to watch by EE Times in 2023 and 2024.\u003C/p>","2026-02-09T23:11:07.687Z","2026-02-17T17:37:52.366Z","152",{"id":2117,"name":1841,"alternativeText":15,"caption":15,"width":2118,"height":2119,"formats":2120,"hash":2132,"ext":714,"mime":717,"size":2133,"url":2134,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2135,"updatedAt":2135},105,587,504,{"small":2121,"thumbnail":2127},{"ext":714,"url":2122,"hash":2123,"mime":717,"name":2124,"path":15,"size":2125,"width":44,"height":2126},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Picture1_0a8e4d8328.jpg","small_Picture1_0a8e4d8328","small_Picture1.jpg",27.63,429,{"ext":714,"url":2128,"hash":2129,"mime":717,"name":1848,"path":15,"size":2130,"width":2131,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Picture1_0a8e4d8328.jpg","thumbnail_Picture1_0a8e4d8328",6.16,181,"Picture1_0a8e4d8328",36.36,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Picture1_0a8e4d8328.jpg","2026-02-17T17:37:48.227Z",[],"-114","-133",{"id":1583,"session":2140},{"id":890,"title":2141,"teaser":2142,"body":89,"createdAt":2143,"updatedAt":2144,"publishedAt":15,"url_path_id":2145,"contacts":2146,"url_path":2155},"A wave of applications is driving timing","\u003Cp>We are in a new era of timing component expansion. ​We are seeing dramatic growth in AI server synchronization, high bandwidth data communication, RF networking, system clocking, and countless internet-of-things. Application complexity is increasing, with higher data rates, tighter synchronization, more protocols, more complex systems, and higher power densities. ​This is driving improvements in stability, holdover, phase noise, jitter, phase alignment, programmability, reliability, size, and power. Innovation is rapid and accelerating.\u003Cbr> \u003C/p>","2026-02-09T23:26:19.370Z","2026-03-04T22:12:10.404Z","170",[2147],{"id":2148,"name":2149,"committee":15,"position":15,"affiliation":2150,"email":15,"biography":89,"createdAt":2151,"updatedAt":2151,"url_path_id":2152,"contactPhoto":15,"socialLinks":2153,"url_path":2154},60,"Aaron Partridge","SiTime, USA","2026-02-09T23:11:27.060Z","153",[],"-115","-132",{"id":989,"session":2157},{"id":1525,"title":2158,"teaser":2159,"body":89,"createdAt":2160,"updatedAt":2161,"publishedAt":2162,"url_path_id":2163,"contacts":2164,"url_path":2206},"Chip Scale Devices for Fieldable Timing","\u003Cp>This talk will explore the development of advanced timing references at HRL, focusing on chip-scale quartz clocks and atomic clocks. We will highlight recent progress in quartz oscillators and phononic combs, followed by an introduction to the design and integration of chip-scale atomic beam clocks. These efforts represent significant advancements toward compact, high-performance timing solutions for next-generation technologies.\u003Cbr> \u003C/p>","2026-02-09T23:27:23.049Z","2026-03-04T22:12:42.831Z","2026-03-04T22:12:42.818Z","172",[2165],{"id":1006,"name":2166,"committee":15,"position":15,"affiliation":2167,"email":15,"biography":2168,"createdAt":2169,"updatedAt":2170,"url_path_id":2171,"contactPhoto":2172,"socialLinks":2204,"url_path":2205},"Travis Autry","HRL, USA","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(0,0,0);\">Dr. Travis Autry currently leads the precision sensing efforts at HRL Laboratories and is a Senior Scientist in the Material and Microsystems Lab at HRL Laboratories.  He holds a PhD in Physics from JILA at the University of Colorado, Boulder.  Travis joined HRL in 2020.  He is currently PI or PM on several internal efforts at HRL focusing on photonics and atomic devices.  Most relevant, he is the PI on the DARPA H6 (SEABeaST) and PM on DARPA Velociraptor (CAVEBAT) efforts where he develops chip-scale atomic clocks and ultra-high Q cavity-optomechanical sensors.\u003C/span>\u003C/p>","2026-02-09T23:11:53.776Z","2026-02-26T16:53:12.722Z","154",{"id":1124,"name":2173,"alternativeText":15,"caption":15,"width":2174,"height":2175,"formats":2176,"hash":2200,"ext":2031,"mime":717,"size":2201,"url":2202,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2203,"updatedAt":2203},"293b25a5-9e54-44a1-89ee-3f0e722a08d4.jpeg",1440,1920,{"large":2177,"small":2182,"medium":2188,"thumbnail":2194},{"ext":2031,"url":2178,"hash":2179,"mime":717,"name":2180,"path":15,"size":2181,"width":51,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771.jpeg","large_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771","large_293b25a5-9e54-44a1-89ee-3f0e722a08d4.jpeg",109.63,{"ext":2031,"url":2183,"hash":2184,"mime":717,"name":2185,"path":15,"size":2186,"width":2187,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771.jpeg","small_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771","small_293b25a5-9e54-44a1-89ee-3f0e722a08d4.jpeg",30.97,375,{"ext":2031,"url":2189,"hash":2190,"mime":717,"name":2191,"path":15,"size":2192,"width":2193,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771.jpeg","medium_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771","medium_293b25a5-9e54-44a1-89ee-3f0e722a08d4.jpeg",64.31,563,{"ext":2031,"url":2195,"hash":2196,"mime":717,"name":2197,"path":15,"size":2198,"width":2199,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771.jpeg","thumbnail_293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771","thumbnail_293b25a5-9e54-44a1-89ee-3f0e722a08d4.jpeg",3.99,117,"293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771",433.4,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/293b25a5_9e54_44a1_89ee_3f0e722a08d4_ab88ea3771.jpeg","2026-02-26T16:52:17.024Z",[],"-116","-134",{"id":418,"groupTitle":2208,"sessions":2209},"7.5 Phononic Frequency Combs",[2210,2226,2244,2262,2315,2368],{"id":2074,"session":2211},{"id":1570,"title":2212,"teaser":2213,"body":89,"createdAt":2214,"updatedAt":2215,"publishedAt":15,"url_path_id":2216,"contacts":2217,"url_path":2225},"Phononic Frequency Combs in Thin-Film Lithium Niobate Acoustic Resonators","\u003Cp>Microwave phononic frequency combs generated with piezoelectric micro-resonators offer a compact route to microwave comb sources and pulse-train synthesis. In this work, we demonstrate phononic frequency comb formation in thin-film lithium niobate (LN) over-moded acoustic resonators, where thermal nonlinearity and strong multi-mode coupling enable cascaded three-wave interactions. By driving a high-frequency acoustic mode near the sum of two lower-frequency modes, we first observe parametric down-conversion into two tones and, at higher drive levels, evenly spaced comb lines around the driven tone and the parametric tones. The comb spacing is tunable with drive conditions and follows the detuning between the driven tone and the parametric sum. In addition to presenting our baseline demonstration, the invited talk will highlight our latest results toward lower-threshold power, broader combs, and improved stability/repeatability, as well as an updated perspective on the role of thermal dynamics and mode coupling in determining the observed operating regimes.\u003Cbr> \u003C/p>","2026-02-09T23:28:03.950Z","2026-03-04T22:13:06.487Z","173",[2218],{"id":1041,"name":2219,"committee":15,"position":15,"affiliation":2220,"email":15,"biography":89,"createdAt":2221,"updatedAt":2221,"url_path_id":2222,"contactPhoto":15,"socialLinks":2223,"url_path":2224},"Ruochen Lu","University of Texas, USA","2026-02-09T23:12:17.895Z","155",[],"-117","-135",{"id":1805,"session":2227},{"id":1456,"title":2228,"teaser":89,"body":2229,"createdAt":2230,"updatedAt":2231,"publishedAt":2232,"url_path_id":2233,"contacts":2234,"url_path":2243},"Multifunctional Internal Resonance-Induced Frequency Combs in CMOS-MEMS","\u003Cp>This paper reviews CMOS-MEMS technology leveraging internal resonance to exceed linear resonator limits for sensing, security, and communication. By engineering precise frequency ratios between modes, these devices generate mechanical frequency combs via coherent energy transfer. Tracking internal resonance-induced comb spacing enables ultrasensitive thermometers with a temperature coefficient of frequency (TCF) enhancement >30× compared to linear versions. Bistable attractor branches enable \"memory-embedded\" sensors that record thermal events without continuous power. Security innovations include true random number generators (TRNGs) exploiting chaotic bifurcation and physical unclonable functions (PUFs) using process-variant comb patterns. Finally, the platform demonstrates mechanical feedforward demodulation of BPSK/QPSK signals, eliminating complex PLLs in RF front-ends. Collectively, these works establish internal resonance-driven frequency combs as a versatile mechanism for next-generation integrated CMOS-MEMS hardware.\u003Cbr> \u003C/p>","2026-02-09T23:28:19.310Z","2026-03-04T22:14:23.951Z","2026-03-04T22:14:23.943Z","174",[2235],{"id":167,"name":2236,"committee":15,"position":15,"affiliation":2237,"email":15,"biography":89,"createdAt":2238,"updatedAt":2239,"url_path_id":2240,"contactPhoto":15,"socialLinks":2241,"url_path":2242},"Wei-Chang Li","National Taiwan University, Taiwan ","2025-12-12T13:38:30.153Z","2026-02-09T23:50:31.618Z","57",[],"-26","-136",{"id":2148,"session":2245},{"id":1494,"title":2246,"teaser":2247,"body":89,"createdAt":2248,"updatedAt":2249,"publishedAt":2250,"url_path_id":2251,"contacts":2252,"url_path":2261},"MEMS-Based Frequency Combs: Lessons and Pitfalls","\u003Cp>In recent years, our group designed and realized various phononic frequency combs (PFC) and soliton frequency combs in electrostatic and piezoelectric micro and nano electromechanical systems (MEMS & NEMS) [1, 2]. In some case, those realizations exploited opto-electro-mechanical interactions. In others, the interaction was strictly electromechanical. In this talk, I will compare and contrast among the techniques we used to realize them, draw conclusions, lessons learned, and attempt to chart a way forward.\u003C/p>","2026-02-09T23:28:43.051Z","2026-03-04T22:14:51.931Z","2026-02-09T23:28:44.689Z","175",[2253],{"id":2254,"name":2255,"committee":15,"position":15,"affiliation":2256,"email":15,"biography":89,"createdAt":2257,"updatedAt":2257,"url_path_id":2258,"contactPhoto":15,"socialLinks":2259,"url_path":2260},63,"Eihab Abdel-Rahman","University of Waterloo, CA","2026-02-09T23:12:52.467Z","156",[],"-118","-137",{"id":1006,"session":2263},{"id":1069,"title":2264,"teaser":2265,"body":89,"createdAt":2266,"updatedAt":2267,"publishedAt":15,"url_path_id":2268,"contacts":2269,"url_path":2314},"Piezoelectric Nanomechanical Frequency Combs for Sensing Applications","\u003Cp>Phononic frequency combs (PFCs) have attracted significant attention recently as analogues of the optical frequency combs (OFCs) with minimal size, weight and power (SWAP) and with electrical in/output, making them attractive candidates for integration with electronics. We report on various methods of generating phononic frequency combs (PFCs) in piezoelectric membrane resonators, both theoretically and experimentally. Our group has shown generation of narrow-bandwidth frequency combs with tunable frequency spacings generated close to the pump frequency, as well as robust wideband frequency combs generated at harmonics of the pump frequency. In this work, I will discuss the essential ingredients in the equations of motion to generate frequency combs in piezoelectric resonators theoretically and provide insight on how to accurately extract the required parameters such as the nonlinear terms and modal couplings. I will then discuss the applications of PFCs, from sensing and metrology to timing.\u003Cbr> \u003C/p>","2026-02-09T23:29:06.872Z","2026-03-04T22:15:17.875Z","176",[2270],{"id":2271,"name":2272,"committee":15,"position":15,"affiliation":2273,"email":15,"biography":2274,"createdAt":2275,"updatedAt":2276,"url_path_id":2277,"contactPhoto":2278,"socialLinks":2311,"url_path":2313},64,"Azadeh Ansari","GeorgiaTach, USA","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(0,0,0);\">Azadeh Ansari is an Associate Professor in the School of Electrical and Computer Engineering at Georgia Tech. She received the B.S. degree in Electrical Engineering from Sharif University of Technology, Iran in 2010. She earned the M.S and Ph.D. degrees in Electrical Engineering from University of Michigan, Ann Arbor in 2013 and 2016 respectively, focusing upon III-V semiconductor and MEMS devices and microsystems for RF applications. Prior to joining the ECE faculty at Georgia Tech, she was a postdoctoral scholar in the Physics Department at Caltech from 2016 to 2017. Dr. Ansari is the recipient of 2023 Transducer Early Career Award, 2021 GT Roger Webb Outstanding Junior Faculty Award, 2020 NSF CAREER award, 2017 ProQuest Distinguished Dissertation Award from the University of Michigan, as well as 2016 University of Michigan Richard and Eleanor Towner Prize for outstanding Ph.D. research.\u003C/span>\u003C/p>","2026-02-09T23:13:00.967Z","2026-03-05T16:49:44.391Z","157",{"id":2279,"name":2280,"alternativeText":15,"caption":15,"width":2281,"height":2282,"formats":2283,"hash":2307,"ext":18,"mime":19,"size":2308,"url":2309,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2310,"updatedAt":2310},122,"Ansari Headshot 600dpi (1).png",2181,2257,{"large":2284,"small":2290,"medium":2295,"thumbnail":2301},{"ext":18,"url":2285,"hash":2286,"mime":19,"name":2287,"path":15,"size":2288,"width":2289,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_Ansari_Headshot_600dpi_1_689b7b9095.png","large_Ansari_Headshot_600dpi_1_689b7b9095","large_Ansari Headshot 600dpi (1).png",1341.07,966,{"ext":18,"url":2291,"hash":2292,"mime":19,"name":2293,"path":15,"size":2294,"width":1546,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_Ansari_Headshot_600dpi_1_689b7b9095.png","small_Ansari_Headshot_600dpi_1_689b7b9095","small_Ansari Headshot 600dpi (1).png",360.44,{"ext":18,"url":2296,"hash":2297,"mime":19,"name":2298,"path":15,"size":2299,"width":2300,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_Ansari_Headshot_600dpi_1_689b7b9095.png","medium_Ansari_Headshot_600dpi_1_689b7b9095","medium_Ansari Headshot 600dpi (1).png",781.24,725,{"ext":18,"url":2302,"hash":2303,"mime":19,"name":2304,"path":15,"size":2305,"width":2306,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_Ansari_Headshot_600dpi_1_689b7b9095.png","thumbnail_Ansari_Headshot_600dpi_1_689b7b9095","thumbnail_Ansari Headshot 600dpi (1).png",42.3,151,"Ansari_Headshot_600dpi_1_689b7b9095",1443.01,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/Ansari_Headshot_600dpi_1_689b7b9095.png","2026-03-05T16:49:30.099Z",[2312],{"id":65,"url":15,"platform":15},"-119","-138",{"id":1041,"session":2316},{"id":1573,"title":2317,"teaser":2318,"body":89,"createdAt":2319,"updatedAt":2320,"publishedAt":2321,"url_path_id":2322,"contacts":2323,"url_path":2367},"A Nonlinear Dynamics Perspective of Phononic Frequency Combs","\u003Cp>We consider the underlying nonlinear dynamics of mechanical systems that generate time signatures associated with phononic frequency combs (PhFCs). Of particular interest are amplitude and phase modulated responses and the generic bifurcations that produce them as system parameters are varied. Experimentally observed PhFCs are described in terms of canonical models that exhibit these bifurcations. The analysis is centered on use of the rotating wave approximation that expose FCs as limit cycles in a rotating frame of reference. We consider PhFCs in Si-based MEMS and MoS2 membranes that demonstrate Hopf bifurcations, period doubling, and homoclinic connections. Comb properties such as finger spacing, frequency spread, and hysteresis are considered in light of the evolution of the limit cycles.\u003Cbr> \u003C/p>","2026-02-09T23:29:26.602Z","2026-03-04T22:15:57.243Z","2026-02-09T23:29:30.391Z","177",[2324],{"id":1106,"name":2325,"committee":15,"position":15,"affiliation":2326,"email":15,"biography":2327,"createdAt":2328,"updatedAt":2329,"url_path_id":2330,"contactPhoto":2331,"socialLinks":2365,"url_path":2366},"Steven Shaw","FIT, USA","\u003Cp>Steve Shaw is Professor of Mechanical Engineering at Florida Institute of Technology and University Distinguished Professor Emeritus of Mechanical Engineering and Adjunct Professor of Physics and Astronomy at Michigan State University. He received an A.B. in Physics and an M.S.E. in Applied Mechanics from the University of Michigan followed by a Ph.D. in Theoretical and Applied Mechanics from Cornell University. Steve’s research interests consider the nonlinear and noisy dynamics of micro/nano-scale resonators with applications in timekeeping and sensing. He is currently funded by DARPA. Steve is recipient of the Henry Ford Customer Satisfaction Award, the SAE Arch T. Colwell Merit Award, and the Ali H. Nayfeh Senior Award from the International Nonlinear Dynamics Society and Springer Nature. From ASME he has earned the rank of Fellow and received the Henry Hess Early Career Publication Award, the N. O. Myklestad Award, the T. K. Caughey Dynamics Medal, and the J. P. Den Hartog Award.\u003C/p>","2026-02-09T23:13:28.853Z","2026-02-23T19:01:28.360Z","158",{"id":2332,"name":2333,"alternativeText":15,"caption":15,"width":2334,"height":2335,"formats":2336,"hash":2361,"ext":714,"mime":717,"size":2362,"url":2363,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2364,"updatedAt":2364},113,"SWS_pic_2023 (1).jpg",1038,1190,{"large":2337,"small":2343,"medium":2349,"thumbnail":2355},{"ext":714,"url":2338,"hash":2339,"mime":717,"name":2340,"path":15,"size":2341,"width":2342,"height":37},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/large_SWS_pic_2023_1_77c87215f5.jpg","large_SWS_pic_2023_1_77c87215f5","large_SWS_pic_2023 (1).jpg",88.78,872,{"ext":714,"url":2344,"hash":2345,"mime":717,"name":2346,"path":15,"size":2347,"width":2348,"height":44},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/small_SWS_pic_2023_1_77c87215f5.jpg","small_SWS_pic_2023_1_77c87215f5","small_SWS_pic_2023 (1).jpg",26.31,436,{"ext":714,"url":2350,"hash":2351,"mime":717,"name":2352,"path":15,"size":2353,"width":2354,"height":51},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/medium_SWS_pic_2023_1_77c87215f5.jpg","medium_SWS_pic_2023_1_77c87215f5","medium_SWS_pic_2023 (1).jpg",53.43,654,{"ext":714,"url":2356,"hash":2357,"mime":717,"name":2358,"path":15,"size":2359,"width":2360,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_SWS_pic_2023_1_77c87215f5.jpg","thumbnail_SWS_pic_2023_1_77c87215f5","thumbnail_SWS_pic_2023 (1).jpg",3.83,136,"SWS_pic_2023_1_77c87215f5",120.03,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/SWS_pic_2023_1_77c87215f5.jpg","2026-02-23T19:01:25.646Z",[],"-120","-139",{"id":2254,"session":2369},{"id":2057,"title":2370,"teaser":2371,"body":89,"createdAt":2372,"updatedAt":2373,"publishedAt":2374,"url_path_id":2375,"contacts":2376,"url_path":2401},"Phononic Frequency Comb Generation via Nonlinear Modal Interactions in Piezoelectric MEMS","\u003Cp>This work presents experimental studies of phononic frequency comb generation in microelectromechanical system (MEMS) resonators. Using piezoelectric circular membrane devices, frequency combs are generated through nonlinear modal interactions under strong electrical excitation. Both degenerate and non-degenerate parametric regimes are observed, leading to multimode spectral response. These results provide an experimental perspective on phononic frequency comb formation in MEMS resonators governed by nonlinear dynamics.\u003C/p>","2026-02-09T23:29:50.994Z","2026-03-04T22:16:39.521Z","2026-02-09T23:29:53.124Z","178",[2377],{"id":2378,"name":2379,"committee":15,"position":15,"affiliation":2380,"email":15,"biography":2381,"createdAt":2382,"updatedAt":2383,"url_path_id":2384,"contactPhoto":2385,"socialLinks":2399,"url_path":2400},66,"Mingyo Park","Pennsylvania State University, USA","\u003Cp>Dr. Mingyo Leen Park joined the Pennsylvania State University as an Assistant Professor in the Department of Electrical Engineering in Fall 2024 and has served as the Thomas and Sheila Roell Early Career Professor since Fall 2025. She received her Ph.D. in Electrical and Computer Engineering from Georgia Institute of Technology in 2022, where she subsequently completed a Postdoctoral Fellowship from 2022 to 2024. Prior to her doctoral studies, she earned her M.S. (2016) and B.S. (2014) degrees in Electrical and Electronic Engineering from Yonsei University. \u003C/p>\u003Cp>Dr. Park’s research centers on advancing nano- and microelectromechanical systems (N/MEMS), with a focus on high-frequency acoustic resonators, nonlinear dynamics, and frequency-agile microsystems. Her work integrates advanced piezoelectric and functional thin-film platforms with heterogeneous integration strategies—including thin-film transfer and multilayer architectures—to realize compact, high-Q, and thermally robust MEMS devices. These innovations support next-generation technologies in 5G/6G communications, sensing, and advanced signal processing.\u003C/p>","2026-02-09T23:13:45.281Z","2026-02-23T18:40:18.763Z","159",{"id":2386,"name":2387,"alternativeText":15,"caption":15,"width":2388,"height":587,"formats":2389,"hash":2395,"ext":18,"mime":19,"size":2396,"url":2397,"previewUrl":15,"provider":22,"provider_metadata":15,"createdAt":2398,"updatedAt":2398},111,"img-b6773ebe-ca66-41eb-8643-8c42ea5f2fa1.png",180,{"thumbnail":2390},{"ext":18,"url":2391,"hash":2392,"mime":19,"name":2393,"path":15,"size":2394,"width":1095,"height":733},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/thumbnail_img_b6773ebe_ca66_41eb_8643_8c42ea5f2fa1_bec79e0309.png","thumbnail_img_b6773ebe_ca66_41eb_8643_8c42ea5f2fa1_bec79e0309","thumbnail_img-b6773ebe-ca66-41eb-8643-8c42ea5f2fa1.png",37.99,"img_b6773ebe_ca66_41eb_8643_8c42ea5f2fa1_bec79e0309",13.59,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/ifcs26/img_b6773ebe_ca66_41eb_8643_8c42ea5f2fa1_bec79e0309.png","2026-02-23T18:40:16.003Z",[],"-121","-140",{"id":187,"groupTitle":2403,"sessions":2404},"7.6 Frequency Control for Computing",[2405,2422,2439,2457],{"id":2271,"session":2406},{"id":605,"title":2407,"teaser":2408,"body":89,"createdAt":2409,"updatedAt":2410,"publishedAt":15,"url_path_id":2411,"contacts":2412,"url_path":2421},"In-situ Trained MEMS-based Analog Neural Network","\u003Cp>Analog neural networks promise to significantly improve power-efficiency for artificial intelligence computation. However, their deployment is impeded by accuracy limitations stemming from analog component variability and drift. To address these challenges, an in-situ trained MEMS-based analog neural network was developed and shown to achieve more than two orders of magnitude improvement in speed and energy efficiency and exhibit resilience to hardware failures.\u003C/p>","2026-02-09T23:30:15.883Z","2026-03-04T22:17:13.528Z","179",[2413],{"id":2414,"name":2415,"committee":15,"position":15,"affiliation":2416,"email":15,"biography":89,"createdAt":2417,"updatedAt":2417,"url_path_id":2418,"contactPhoto":15,"socialLinks":2419,"url_path":2420},67,"David Lin","Geaerospace, USA","2026-02-09T23:14:09.691Z","160",[],"-122","-141",{"id":1106,"session":2423},{"id":2074,"title":2424,"teaser":2425,"body":89,"createdAt":2426,"updatedAt":2427,"publishedAt":15,"url_path_id":2428,"contacts":2429,"url_path":2438},"Microelectromechanical Systems-based Ising Systems for Solving NP-Hard Combinatorial Optimization Problems and for Wireless  Sensing in the AI-enhanced IoT Era.","\u003Cp>In this talk, we describe the operation and modelling of PO-based IMs, showcasing how MEMS technology offers a pathway to enhanced accuracy, shorter time-to-solution, and easier scalability to large scale manufacturing. Next, we will show how PO-based IMs also provide a sustainable pathway to “intelligence” and edge computing in wireless sensing, a crucial priority to successfully and sustainably augment the Internet of Things with Artificial Intelligence. To this end, we will describe the first MEMS-based passive wireless sensor – namely the first “Sensing Parametric Ising Node (SPIN)” –able to implement threshold sensing, accurately and autonomously and directly at the edge, by relying on Ising dynamics.\u003C/p>","2026-02-09T23:32:28.030Z","2026-03-04T22:17:51.349Z","182",[2430],{"id":2431,"name":2432,"committee":15,"position":15,"affiliation":2433,"email":15,"biography":89,"createdAt":2434,"updatedAt":2434,"url_path_id":2435,"contactPhoto":15,"socialLinks":2436,"url_path":2437},68,"Christian Cassella","Northeeastern University, USA","2026-02-09T23:14:28.185Z","161",[],"-123","-144",{"id":2378,"session":2440},{"id":989,"title":2441,"teaser":2442,"body":89,"createdAt":2443,"updatedAt":2444,"publishedAt":2445,"url_path_id":2446,"contacts":2447,"url_path":2456},"A Hopfield-Inspired 212-GOPS Large-Scale Integrated Photonic Ising Machine","\u003Cp>Photonic Ising machines have the potential to find optimal solutions to combinatorial optimization problems. However, photonic hardware implementations that are simultaneously scalable, reconfigurable, fast, and stable remain elusive. Here, we demonstrate a 200 GOPS programmable, stable, room-temperature photonic Ising machine using cascaded thin-film lithium niobate (TFLN) modulators, a semiconductor optical amplifier, and a digital signal processing engine. Our architecture supports 256 fully connected and >41,000 sparsely connected Ising problems and achieves optimal solutions for benchmarking problems, number partitioning, and lattice protein folding.\u003C/p>","2026-02-09T23:32:01.281Z","2026-03-04T22:19:43.259Z","2026-02-09T23:32:48.781Z","181",[2448],{"id":2449,"name":2450,"committee":15,"position":15,"affiliation":2451,"email":15,"biography":89,"createdAt":2452,"updatedAt":2452,"url_path_id":2453,"contactPhoto":15,"socialLinks":2454,"url_path":2455},69,"Aadhi Rahim","Quzens University, CA","2026-02-09T23:14:49.391Z","162",[],"-124","-142",{"id":2414,"session":2458},{"id":1805,"title":2459,"teaser":2460,"body":89,"createdAt":2461,"updatedAt":2462,"publishedAt":2463,"url_path_id":2464,"contacts":2465,"url_path":2473},"From analog oscillator dynamics to efficient combinatorial optimization solvers","\u003Cp>This talk will focus on the design challenges that arise in building practical oscillator-based Ising machines, and on the hardware- and algorithm-aware strategies used to address them.\u003Cbr> \u003C/p>","2026-02-09T23:33:01.746Z","2026-03-04T22:20:19.353Z","2026-02-09T23:33:04.375Z","183",[2466],{"id":231,"name":2467,"committee":15,"position":15,"affiliation":2468,"email":15,"biography":89,"createdAt":2469,"updatedAt":2469,"url_path_id":2470,"contactPhoto":15,"socialLinks":2471,"url_path":2472},"Nikhil Shukla","University of Virginia, USA","2026-02-09T23:15:19.407Z","163",[],"-125","-143",{"data":2475,"meta":2476},{"id":181,"heading":265,"createdAt":266,"updatedAt":267,"publishedAt":268,"url_path_id":269,"url_path":272,"contentType":120},{},1778853860439]