Connor Hart
QTC Scientist
Ph.D. Physics, Harvard University, 2020
B.S. Physics, University of Maryland, College Park, 2015
Connor’s research focuses on the development of quantum sensors based on nitrogen vacancy center defects in diamond for applications such as bulk vector magnetometry and wide-field magentic imaging. In particular, he pursues, in close collaboration with others in the group, the realization of techniques to improve NV-diamond magnetic sensitivity and robustness against material, environmental, and experimental imperfections. His graduate work has also included the development of NV-based characterization techniques to better inform the development of diamond material tailored to magnetic sensing applications.
A paper on Quantum Logic Enhanced Sensing in Solid-State Spin Ensembles has been posted to arXiv!
A paper on High-Precision Mapping of Diamond Crystal Strain Using Quantum Interferometry has been published in Physical Review Applied!
A paper on Multiplexed Sensing of Magnetic Field and Temperature in Real Time Using a Nitrogen-Vacancy Ensemble in Diamond has been published in Physical Review Applied!
Notable Publications