Realization of an ultracold indium gas

Xianquan Yu; Jinchao Mo; Tiangao Lu; Ting You Tan; Travis L Nicholson

Realization of an ultracold indium gas

ORAL

Abstract

Three atom types have been responsible for nearly all the remarkable progress in quantum degenerate gas experiments, namely alkalis, alkaline earths, and dipolar lanthanides. Meanwhile main-group elements III-VIII remain unexplored in the quantum degenerate regime.

Our work focuses on ultracold indium, which is a main-group III element. Indium is a multipurpose atom that contains many useful properties found only in isolation in other ultracold atom types. For example, indium simultaneously contains magnetic Feshbach resonances, optical clock transitions, strong spin exchange interactions, spinor gas capabilities, and promising spin-orbit coupling capabilities.

In this talk we describe our realization of a laser-cooled indium gas, including a Zeeman slower and efficient magneto-optical trap. We also discuss our progress toward sub-Doppler cooling indium.

June 6, 2023, 3:33 PM – June 6, 2023, 3:45 PM

Publication: X. Yu, J. Mo, T. Lu, T.Y. Tan, and T.L. Nicholson. "Zeeman slowing for a group-III atom," Phys. Rev. Res. 4, 013238 (2022)<br>X. Yu, J. Mo, T. Lu, T.Y. Tan, and T.L. Nicholson. "Magneto-optical trapping of a group-III atom," Phys. Rev. A 105, L061101 (2022)

Presenters

Xianquan Yu

Centre for Quantum Technologies, National University of Singapore

Authors

Xianquan Yu

Centre for Quantum Technologies, National University of Singapore
Jinchao Mo

Centre for Quantum Technologies, National University of Singapore
Tiangao Lu

Centre for Quantum Technologies, National University of Singapore
Ting You Tan

Centre for Quantum Technologies, National University of Singapore
Travis L Nicholson

Centre for Quantum Technologies, National University of Singapore