YO laser cooling and trapping with an improved repumping scheme

Yewei Wu; Alejandra Collopy; Shiqian Ding; Ian Finneran; Loic Anderegg; Benjamin Augenbraun; John Doyle; Jun Ye

YO laser cooling and trapping with an improved repumping scheme

ORAL

Abstract

Using a new repumping scheme for laser cooling of yttrium II oxide (YO), we have increased the photon scattering rate by 60{\%} on the cooling transition. With this improved cycling scheme, we have improved the number of slowed molecules (with velocity \textless 10 m/s) by 20 fold from a beam of YO from a single-stage cryogenic buffer gas cell. These molecules can be readily loaded into a radio frequency (5 MHz) magneto-optical trap. We will report the characterization of the MOT.

^*NIST, NSF, Gordon and Betty Moore foundation, United states department of energy, United states air force

May 29, 2018, 12:18 PM – May 29, 2018, 12:30 PM

Authors

Yewei Wu
- JILA, University of Colorado Boulder
Alejandra Collopy
- JILA, University of Colorado Boulder
Shiqian Ding
- JILA, University of Colorado Boulder
Ian Finneran
- JILA, University of Colorado Boulder
Loic Anderegg
- Harvard University
Benjamin Augenbraun
- Harvard University
John Doyle
- Harvard University
Jun Ye
- JILA, NIST and University of Colorado, and Department of Physics, University of Colorado
- JILA, University of Colorado / NIST
- JILA, NIST, and University of Colorado, and Department of Physics, University of Colorado
- JILA, University of Colorado - Boulder
- JILA
- NIST, JILA-University of Colorado
- JILA Univ of Colorado - Boulder
- University of Colorado, Boulder
- JILA, University of Colorado Boulder