Toward nuclear magnetic resonance spectroscopy above 1 Tesla with nitrogen-vacancy centers

Bryan Andrew Richards; Janis Smits; Andrey Jarmola; Yaser Silani; Andrew F McDowell; Andris Berzins; Maziar Saleh Ziabari; Amilcar Jeronimo Perez; Maxwell D Aiello; Victor M Acosta

Toward nuclear magnetic resonance spectroscopy above 1 Tesla with nitrogen-vacancy centers

ORAL

Abstract

The ability of nitrogen-vacancy (NV) centers in diamond to act as quantum sensors of magnetic fields over microscale distances has led to a wide range of applications, including the detection of nuclear magnetic resonance (NMR) signals from a liquid analyte. Applied magnetic fields B₀ > 1 T are needed to resolve 100-parts-per-billion chemical shifts in NMR spectroscopy, but such large fields present challenges for NV sensor spin manipulation. We describe progress in extending NV-NMR to B₀ > 1 T, including chip design and NV and nuclear control.

March 17, 2025, 12:54 PM – March 17, 2025, 1:06 PM

Presenters

Bryan Andrew Richards
- University of New Mexico

Authors

Bryan Andrew Richards
- University of New Mexico
Janis Smits
- University of New Mexico
Andrey Jarmola
- University of California, Berkeley
Yaser Silani
- University of New Mexico
Andrew F McDowell
- NuevoMR
Andris Berzins
- University of New Mexico
Maziar Saleh Ziabari
- University of New Mexico
Amilcar Jeronimo Perez
- University of New Mexico
Maxwell D Aiello
- University of New Mexico
Victor M Acosta
- University of New Mexico