CMOS-Integrated Diamond Nitrogen-Vacancy Quantum Sensor
ORAL
Abstract
We report the first on-chip quantum sensor which combines CMOS integrated circuit technologies with nitrogen-vacancy (NV) centers in diamond. We will discuss how this system performs two critical functions for quantum magnetometry with NV centers: strong generation and efficient delivery of microwave for quantum-state control, and optical filtering/detection of spin-dependent fluorescence for quantum-state readout. We demonstrate on-chip optically detectable magnetic resonance (ODMR) for the first time. I will then discuss, some of our more recent efforts toward increasing the capabilities of this system to coherently control the NV's spin state.
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Presenters
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Christopher Foy
EECS, MIT, Massachusetts Institute of Technology
Authors
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Christopher Foy
EECS, MIT, Massachusetts Institute of Technology
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Mohamed Ibrahim
EECS, MIT
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Donggyu Kim
EECS, MIT, Mechanical Engineering, MIT
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Matthew Trusheim
EECS, MIT, Massachusetts Institute of Technology, Electrical Engineering and Computer Science, Massachusetts Institute of Technology
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Dirk R. Englund
Electrical Engineering and Computer Science, MIT, Massachusetts Institute of Technology, MIT, EECS, MIT, Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Research Laboratory of Electronics, Massachusetts Institute of Technology
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Ruonan Han
EECS, MIT