Group 1
-Liyan Li, University of Science and Technology of China
8041: SH-SAW Resonator with Embedded IDT Electrodes and Enhanced Acoustic Velocity
-Daniel Eduardo Lopez Garcia, University of Central Florida
8105: AlN MEMS Resonators and Oscillators Operating at High Temperature Up to 800°C
-Jiawei Yang, Stanford University
8133: A General Mode-Coupling-Based Frequency Control Method for MEMS Resonators
-Kevin H. Zheng, University of California, Berkeley
8158: 121-m/S Diamond Disk Resonator
-Xintian Liu, University of California, Berkeley
8159: Silicon Carbide Coating of MEMS Resonators via Localized Annealing of Amorphous Carbon
Group 2
-Pooja Roy, University of Central Florida
8122: An Optoelectronic Feedback Oscillator Referenced to a Diamagnetically Levitated Mechanical Resonator
-Alkim Bozkurt, University of Illinois Urbana-Champaign
8102: An RF-MEMS Temperature Compensated Oscillator with ±4 ppb Dynamic Stability Under Fast Temperature Ramps
-Robert Crew, Quantum Technologies and Dark Matter Research Lab, University of Western Australia
8059: A Microwave Oscillator Based on Two YIG Filters Offset in Frequency
-Nicolas Casilli, Northeastern University
8132: Evidence of SNR-Improvement Through Injection Locking in Frequency Comb Sensor Readout Circuits
-Yi-Xiang Chen, National Taiwan University
8089: Stability Regimes of Beating-Frequency Generation in MEMS Dual-Resonator Vibro-Impact Clocks
Group 3
-Yue Yuan, Laboratoire Temps Espace (LNE-OP), Observatoire de Paris - PSL
8080: Spectral Hole Burning in Eu:YSO for Low-Frequency Acceleration Sensing
-Shun KIYOSE, Kyoto University
8040: Wafer-Level Control of Nitrogen Buffer Gas Pressure and its Impact on CPT Resonance in Microfabricated Rubidium Vapor Cells
-Sanika Joshi, Indian Institute of Technology Bombay
8025: A Comprehensive Noise Model for Diamond NV Center-Based Magnetometers
-Zhendong Chen, Peking University
8150: A Chip-Scale Atomic-Clock-Referenced Portable Optical Frequency Comb
Group 4
-Tanvir Hasan, University of Central Florida
8008: Enhanced Acoustoelectric Charge Transport in Lamb Wave Delay Lines via Depletion-Mediated Channel Confinement
-Mariam Gigauri, Purdue University
8110: Langasite Based Membranes for Harsh-Environment Sensing
-Niccolo Scalise-Pantuso, Northeastern University
8111: Enabling Higher Resolution in MEMS Sensors Through Rainbow Trapping in AlScN Devices
-Samira Yasmin, University of Central Florida
8120: Ultralow-Loss Rotation and Internal-Resonance-Induced Mode Coupling in a Diamagnetically Levitated Graphite Rotor
Group 5
-Md Ahasan Habib, Saint Louis University
8046: High-Rate GPS Satellite Clock Estimation at 1-Second Intervals Using a Sparse Global Network and a Kalman Filter
-Shirong Wei, Beihang University
8005: Single-Round Hardware Timestamping for Mobility-Resilient Wireless Time Synchronization
-Wenlin Li, Tsinghua University
8036: High-Precision Time Interval Measurement for Power Line–Based Time Synchronization Systems
Group 6
-Peter Riley, National Institute of Standards and Technology
8118: A Fully Scalable Platform for Near-Field and Far-Field Interactions in Alkali Vapor–Photonic Integrated Circuits
-Rosu Baby, XLIM Research Institute, University of Limoges
8031: Toward Rb PMC: Loading, Splicing, and Lifetime Studies of Various Capillaries
-Jie Zhao, National Institute of Metrology of China
8072: Dual-Spectrum Thermometry and Emissivity Registration for Blackbody Radiation Shift Correction in Ion Optical Clocks
-Jia Zhang, Peking University
8012: Mirrorless Laser as a Cavity-Pulling-Immune Active Optical Clock
-Jiachuan Yang, Peking University
8074: Dual-Actuator Stabilization of Residual Amplitude Modulation in PDH Laser Locking Systems