Progress Towards an All-Optical Quantum Diamond Magnetometer

Kristine V Ung; Xiechen Zheng; Jeyson Támara-Isaza; Connor A Hart; John W Blanchard; Ronald L Walsworth

Progress Towards an All-Optical Quantum Diamond Magnetometer

POSTER

Abstract

Precision magnetometry via nitrogen vacancy (NV) centers in diamond typically utilizes microwaves to drive the center's spin state transitions. However, delivering microwaves becomes technically challenging in extreme environments such as inside a nuclear fusion reactor. Under such conditions, an all-optical quantum diamond magnetometer offers a microwave-free approach to measuring magnetic fields. Measurements can be made by leveraging the fact that an NV-center's fluorescence quenches in the presence of an off-axis magnetic field. In this poster, we present basic principle and experimental progress towards this all-optical quantum diamond magnetometer.

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

Presenters

Kristine V Ung
- University of Maryland

Authors

Kristine V Ung
- University of Maryland
Xiechen Zheng
- University of Maryland, College Park
Jeyson Támara-Isaza
- University of Maryland, College Park
- Universidad Nacional de Colombia
Connor A Hart
- University of Maryland, College Park
- University of Maryland
- Quantum Catalyzer
John W Blanchard
- University of Maryland, College Park
- University of Maryland
Ronald L Walsworth
- University of Maryland, College Park