Density measurement using dipole-dipole dynamics among ultracold Rydberg atoms

Sarah E Spielman; Chenfei Zhao; Jordyn E Strunk; Juniper J Bauroth-Sherman; Philip A Conte; Aidan D Kirk; Hannah S Conley; Nick A Chlanda; Chakradhar Pulipaka; Thomas J Carroll; Michael W Noel

Density measurement using dipole-dipole dynamics among ultracold Rydberg atoms

POSTER

Abstract

For experiments involving interactions among ultracold atoms, the density of Rydberg states can play a significant role. We can leverage this spatial dependence into a technique that can accurately measure the Rydberg atom density. Using rubidium-85 atoms in a MOT, we examine the time-dependence of the N-body dipole-dipole resonance N x 33p_{3/2, |}_mj_|=1/2→ 33s_1/2 + 34s_1/2 + (N-2) x 33p_{3/2, |}_mj_|=3/2 for N = 2 and 3, which scale differently with the spacing between atoms. We then calibrate the density of Rydberg states by comparing the measured dynamics to simulation.

Presenters

Sarah E Spielman

Bryn Mawr College

Authors

Sarah E Spielman

Bryn Mawr College
Chenfei Zhao

Bryn Mawr College
Jordyn E Strunk

Bryn Mawr College
Juniper J Bauroth-Sherman

Ursinus College
Philip A Conte

Ursinus College
Aidan D Kirk

Ursinus College
Hannah S Conley

Ursinus College
Nick A Chlanda

Ursinus College
Chakradhar Pulipaka

Ursinus College
Thomas J Carroll

Ursinus College
Michael W Noel

Bryn Mawr College