Nuclear spin sensing under hydrostatic pressure using nitrogen vacancy centers

Z. Wang; Christopher McPherson; Rashad Kadado; William H Casey; N. J Curro

Nuclear spin sensing under hydrostatic pressure using nitrogen vacancy centers

ORAL

Abstract

Nitrogen vacancy centers have attracted broad attention as quantum sensors particularly for quantum sensing under geochemical hydrostatic pressure conditions(hundreds of kbars) . Here we present AC sensing results up to 6 GPa with sensitivity to detect nuclear spin inside the diamond anvil cell. These experiments enable the possibility for all-optical high resolution magnetic resonance of nanoliter sample volumes to study geochemical processes.

^*DOE grant number: DE-FG02-05ER15693

March 16, 2022, 4:24 PM – March 16, 2022, 4:36 PM

Publication: AC sensing using nitrogen vacancy centers in a diamond anvil cell up to 6 GPa(Submitted)
https://arxiv.org/abs/2110.06327

Presenters

Z. Wang
- University of California, Davis
- Department of Physics, University of California Davis, Davis, CA

Authors

Z. Wang
- University of California, Davis
- Department of Physics, University of California Davis, Davis, CA
Christopher McPherson
- University of California, Davis
Rashad Kadado
- University of California, Davis
William H Casey
- University of California, Davis
N. J Curro
- University of California, Davis
- Department of Physics, University of California Davis, Davis, CA