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Christopher Foy
Christopher Foy
technical staff, MIT Lincoln Laboratory
Verified email at ll.mit.edu - Homepage
Title
Cited by
Cited by
Year
A CMOS-integrated quantum sensor based on nitrogen–vacancy centres
D Kim, MI Ibrahim, C Foy, ME Trusheim, R Han, DR Englund
Nature Electronics 2 (7), 284-289, 2019
1452019
Wide-field magnetic field and temperature imaging using nanoscale quantum sensors
C Foy, L Zhang, ME Trusheim, KR Bagnall, M Walsh, EN Wang, ...
ACS applied materials & interfaces 12 (23), 26525-26533, 2020
612020
High-scalability CMOS quantum magnetometer with spin-state excitation and detection of diamond color centers
MI Ibrahim, C Foy, DR Englund, R Han
IEEE Journal of Solid-State Circuits 56 (3), 1001-1014, 2020
462020
Distributed quantum fiber magnetometry
S Maayani, C Foy, D Englund, Y Fink
Laser & Photonics Reviews 13 (7), 1900075, 2019
352019
Comparative thermal conductivity measurement of chemical vapor deposition grown graphene supported on substrate
AN Sidorov, DK Benjamin, C Foy
Applied Physics Letters 103 (24), 2013
132013
Room-temperature quantum sensing in CMOS: On-chip detection of electronic spin states in diamond color centers for magnetometry
MI Ibrahim, C Foy, D Kim, DR Englund, R Han
2018 IEEE Symposium on VLSI Circuits, 249-250, 2018
122018
CMOS-integrated diamond nitrogen-vacancy quantum sensor
D Kim, MI Ibrahim, C Foy, ME Trusheim, R Han, DR Englund
arXiv preprint arXiv:1810.01056, 2018
102018
29.2 A Scalable Quantum Magnetometer in 65nm CMOS with Vector-Field Detection Capability
MI Ibrahim, C Foy, DR Englund, R Han
2019 IEEE International Solid-State Circuits Conference-(ISSCC), 458-461, 2019
72019
Qualifying an integrated coherent receiver for space applications
CC Foy, J Minch, D Feld, R Bourque, DJ Weidman, M Kass, M Boning, ...
Free-Space Laser Communications XXXIV 11993, 30-38, 2022
42022
Recovery of single-polarization waveforms with dual-polarization coherent receivers at low SNRs
CC Foy, J Minch, TC Royster, D Feld, M Boning, TM Yarnall
Free-Space Laser Communications XXXV 12413, 348-356, 2023
12023
Solid-state spin-integrated circuits for quantum sensing and control
C Foy
Massachusetts Institute of Technology, 2020
12020
Improving lasercom terminals by reducing optical nonlinearities via hollow-core optical fibers
CC Foy, B Malinsky, J Minch
Free-Space Laser Communications XXXVI 12877, 284-292, 2024
2024
Integrated Fibre Detection Architectures for Distributed Quantum Magnetometry
S Maayani, C Foy, DR Englund, Y Fink
CLEO: Science and Innovations, SF3L. 5, 2019
2019
Quantum Sensing in CMOS under Ambient Conditions: On-Chip Detection of Electronic Spin States in Diamond
C Foy, D Kim, MI Ibrahim, M Trusheim, R Han, D Englund
2019 Conference on Lasers and Electro-Optics (CLEO), 1-2, 2019
2019
Integrated Fibre Detection Architectures for Distributed Quantum Magnetometry
C Foy, S Maayani, D Englund, Y Fink
APS March Meeting Abstracts 2019, G70. 378, 2019
2019
CMOS-Integrated Diamond Nitrogen-Vacancy Quantum Sensor
C Foy, M Ibrahim, D Kim, M Trusheim, D Englund, R Han
APS March Meeting Abstracts 2019, R29. 012, 2019
2019
Imaging current distributions and temperature profiles in GaN HEMTs using nitrogen vacancy centers in nanodiamonds
C Foy, KR Bagnall, ME Trusheim, A Lauri, EN Wang, D Englund
CLEO: Applications and Technology, ATu3J. 2, 2016
2016
Wide-field magnetic field imaging with nitrogen vacancy centers in nanodiamonds at high frame-rates
C Foy
Massachusetts Institute of Technology, 2016
2016
AFM and SThM Characterization of Graphene
C Foy, A Sidorov, X Chen, M Ruan, C Berger, W de Heer, Z Jiang
APS March Meeting Abstracts 2012, S1. 024, 2012
2012
Thermal Conductivity of CVD grown graphene
A Sidorov, D Benjamin, C Foy, Z Jiang, Q Yu, H Cao, W Wu, Z Liu, J Bao, ...
APS March Meeting Abstracts 2011, A30. 007, 2011
2011
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