Towards Raman Cooling of a Single Atom in a Tightly Focused Optical Tweezer

Jianwei Lee; Syed Abdullah Aljunid; Martin Paesold; Brenda Chng; Gleb Maslennikov; Christian Kurtsiefer

Towards Raman Cooling of a Single Atom in a Tightly Focused Optical Tweezer

POSTER

Abstract

When loading a single Rb atom from a magneto-optical trap into a tightly focused optical dipole trap we infer an average kinetic energy corresponding to a temperature of tens of microkelvin from release/recapture experiments. In order to bring the atom close to the vibrational ground state of the trap with characteristic frequencies of 20-60 kHz, we implement a Raman cooling technique similar to the one commonly used in ion traps. We expect to resolve the vibrational sidebands. This will lead to a better localization of the atom in free-space atom-photon interaction experiments. We present current experimental progress towards this goal.

Authors

Jianwei Lee
- Centre for Quantum Technologies, National University of Singapore
- Centre for Quantum Technologies National University of Singapore
Syed Abdullah Aljunid
- Centre for Quantum Technologies, National University of Singapore
- Centre for Quantum Technologies/Phys.Dept National University of Singapore
Martin Paesold
- ETH Zurich
Brenda Chng
- Centre for Quantum Technologies, National University of Singapore
- Centre for Quantum Technologies/Phys.Dept National University of Singapore
Gleb Maslennikov
- Centre for Quantum Technologies, National University of Singapore
- Centre for Quantum Technologies National University of Singapore
Christian Kurtsiefer
- Centre for Quantum Technologies/Phys.Dept, National University of Singapore
- Centre for Quantum Technologies/Phys.Dept National University of Singapore