Optical and magnetic properties of Rb-doped Ne solids

David M Lancaster; Ugne Dargyte; Jonathan D Weinstein

Optical and magnetic properties of Rb-doped Ne solids

POSTER

Abstract

Single-atom quantum sensors require long coherence times and the ability to detect and control the atom's quantum state. We have found that the spin state of Rb atoms trapped in cryogenic neon solids satisfies these requirements, making this system a promising one for magnetometry of materials co-trapped in the matrix and for single-molecule NMR. This poster presents key optical and magnetic properties of Rb atoms in solid Ne, modifications to our apparatus to enable single-atom detection in the matrix, and our current progress towards that goal.

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><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