Progress toward NMR of single nuclei using single atoms in solid neon

David M Lancaster; Ugne Dargyte; Jonathan D Weinstein

Progress toward NMR of single nuclei using single atoms in solid neon

POSTER

Abstract

Rubidium atoms trapped in a solid neon matrix have demonstrated long electron-spin coherence times as well as the ability to optically control and read out the Rb atom's spin state. Ensembles of implanted atoms have been used to detect the presence of Ne-21 nuclei via NMR spectroscopy. This poster will show results from measurements of ensembles of Rb atoms in solid Ne, as well as preliminary results of detecting the spin state of single Rb atoms.

Publication: Radiative properties of rubidium atoms trapped in solid neon and parahydrogen. David M. Lancaster, Ugne Dargyte, Sunil Upadhyay, and Jonathan D. Weinstein, Physical Review A 103, 052614 (2021)<br>Optical and spin-coherence properties of rubidium atoms trapped in solid neon. Ugne Dargyte, David M. Lancaster, and Jonathan D. Weinstein, Physical Review A 104, 032611 (2021)

Presenters

David M Lancaster

University of Nevada, Reno

Authors

David M Lancaster

University of Nevada, Reno
Ugne Dargyte

University of Nevada, Reno
Jonathan D Weinstein

University of Nevada, Reno