Zhi Hu
PhD alum '20 · SpaceX
After the group
SpaceX
PhD Dissertation
Large-scale high-density terahertz radiator and receiver Arrays on silicon chips MIT DSpace ↗
Awards
- 2020 MIT MTL Doctoral Dissertation Award
Publications in the group 15
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Emerging Terahertz Integrated Systems in Silicon
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A Molecular Clock Architecture for Deep Space Inter-SmallSat Radio Occultation
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Chip-Scale Terahertz Carbonyl Sulfide (OCS) Clock: An Overview and Recent Studies on Long-Term Frequency Stability of OCS Transitions
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A 32-Unit 240-GHz Heterodyne Receiver Array in 65-nm CMOS with Array-Wide Phase Locking
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High-Precision Probing of Molecules Using THz CMOS Chips: Principles and Applications in High-Accessibility Sensors and Clocks
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Filling the Gap: Silicon Terahertz Integrated Circuits Offer Our Best Bet
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Principles and Prototypes of Chip-Scale Molecular Clock
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CMOS-Based THz Spectrometers: From Gas Sensing to Time-Keeping
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Chip-Scale Molecular Clock
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Heterodyne Sensing CMOS Array with High Density and Large Scale: A 240-GHz, 32-Unit Receiver Using A De-Centralized Architecture
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High-Power Radiation at 1 THz in Silicon: A Fully Scalable Array Using A Multi-Functional Radiating Mesh Structure
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Large-Scale Terahertz Active Arrays in Silicon Using Highly-Versatile Electromagnetic Structures
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Energy-Efficient Integrated THz Electronics Using Multi-Functional Electromagnetism and High-Parallelism Spectral Sensing
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Fully-Scalable 2D THz Radiating Array: A 42-Element Source in 130-nm SiGe with 80-μW Total Radiated Power at 1.01 THz
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On-Chip Terahertz Electronics: From Device-Electromagnetic Integration to Energy-Efficient, Large-Scale Microsystems