All-optical, Microwave-free NV-Diamond Magnetometer for High Magnetic Field Environment

Xiechen Zheng; Jeyson Támara-Isaza; Kristine V Ung; Connor A Hart; Matthew J Turner; Ronald L Walsworth

All-optical, Microwave-free NV-Diamond Magnetometer for High Magnetic Field Environment

ORAL

Abstract

Nitrogen vacancy (NV) magnetometry has commonly utilized microwave sources to manipulate the sensor's spin state. However, this technique becomes technically challenging under an environment with a Tesla-scale magnetic field or extreme conditions that prohibit the usage of microwave. By leveraging the effect that an off-axis magnetic field to the NV axis quenches its emitted photoluminescence, we present an all-optical, microwave-free broadband quantum diamond magnetometer. We demonstrate magnetic sensing over an extended bias magnetic field range — beyond the ground-state level anti-crossing (GSLAC) region — with a more integrated design.

^*This work is supported by the U.S. Department of Energy under Grant No. DESC0021654.

March 6, 2023, 12:18 PM – March 6, 2023, 12:30 PM

Presenters

Xiechen Zheng
- University of Maryland, College Park

Authors

Xiechen Zheng
- University of Maryland, College Park
Jeyson Támara-Isaza
- University of Maryland, College Park
Kristine V Ung
- University of Maryland, College Park
Connor A Hart
- University of Maryland, College Park
Matthew J Turner
- University of Maryland, College Park
Ronald L Walsworth
- University of Maryland, College Park