Topological Materials of Light in Degenerate Multimode Cavities

Claire Baum; Lukas Palm; Matthew Jaffe; Logan W Clark; Nathan A Schine; Ningyuan Jia; Jonathan Simon

Topological Materials of Light in Degenerate Multimode Cavities

POSTER

Abstract

Topologically ordered materials can be explored via cavity Rydberg polaritons, quasiparticles composed of part cavity photon and part atomic Rydberg excitation. The Rydberg component facilitates strong interactions between polaritons, while the cavity component allows us to shape the polariton energy landscape via the mode structure of a twisted optical cavity. Enabled by these concepts, we recently prepared the first two-particle Laughlin state of light. We now describe our efforts to prepare larger, topologically-ordered states through a newly designed highly degenerate multimode cavity and dissipative state preparation.

Publication: Logan W Clark, Nathan Schine, Claire Baum, Ningyuan Jia and Jonathan Simon, "Observation of Laughlin states made of light" Nature, 582, 41-45, (2020)

Presenters

Claire Baum

University of Chicago

Authors

Claire Baum

University of Chicago
Lukas Palm

University of Chicago
Matthew Jaffe

University of Chicago
Logan W Clark

University of Chicago
Nathan A Schine

JILA, University of Colorado and National Institute of Standards and Technology, and Department of Physics, University of Colorado, Boulder, Colorado 80309, USA, JILA, University of Colorado and National Institute of Standards and Technology, and Department of Physics, University of Colorado, Boulder, JILA, NIST, and Department of Physics, University of Colorado, Boulder, JILA
Ningyuan Jia

Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology MI
Jonathan Simon

University of Chicago