Physical Review X (Jul 2022)

Observation of Light-Induced Dipole-Dipole Forces in Ultracold Atomic Gases

  • Mira Maiwöger,
  • Matthias Sonnleitner,
  • Tiantian Zhang,
  • Igor Mazets,
  • Marion Mallweger,
  • Dennis Rätzel,
  • Filippo Borselli,
  • Sebastian Erne,
  • Jörg Schmiedmayer,
  • Philipp Haslinger

DOI
https://doi.org/10.1103/PhysRevX.12.031018
Journal volume & issue
Vol. 12, no. 3
p. 031018

Abstract

Read online Read online

Light-matter interaction is well understood on the single-atom level and routinely used to manipulate atomic gases. However, in denser ensembles, collective effects emerge that are caused by light-induced dipole-dipole interactions and multiple photon scattering. Here, we report on the observation of a mechanical deformation of a cloud of ultracold ^{87}Rb atoms due to the collective interplay of the atoms and a homogenous light field. This collective light scattering results in a self-confining potential with interesting features: It exhibits nonlocal properties, is attractive for both red- and blue-detuned light fields, and induces a remarkably strong force that depends on the gradient of the atomic density. Our experimental observations are discussed in the framework of a theoretical model based on a local-field approach for the light scattered by the atomic cloud. Our study provides a new angle on light propagation in high-density ensembles and expands the range of tools available for tailoring interactions in ultracold atomic gases.