Cold-atom systems with synthetic SU(3) spin-orbit coupling

Greg Boyd; Ryan Barnett; Victor Galitski

Cold-atom systems with synthetic SU(3) spin-orbit coupling

ORAL

Abstract

Recently, the ability to create and control artificial gauge fields in cold gases has been experimentally demonstrated. Here, we propose a scheme to realize synthetic SU(3) spin-orbit interactions and derive an effective single-particle Hamiltonian, parameterized by the Gell-Mann matrices. We then investigate a many-body system of SU(3)-spin-orbit-coupled bosons and derive and analyze numerically the Gross-Pitaevskii equation to describe the effect of interaction on the possible ground states. The time-of-flight density profiles to probe various many-body states in the rich phase diagram of the system are calculated.

^*This research is supported by ARO's atomtronics MURI (G.B. and V.G.) and JQI-PFC (R.B.)

Feb. 28, 2012, 9:48 AM – Feb. 28, 2012, 10:00 AM

Authors

Greg Boyd
- University of Maryland
Ryan Barnett
- University of Maryland
- Joint Quantum Institute and Condensed Matter Theory Center, University of Maryland
Victor Galitski
- University of Maryland
- University of Maryland, College Park
- Joint Quantum Institute, University of Maryland, College Park
- JQI, UMD
- Joint Quantum Institute and Physics Department, University of Maryland
- JQI, NIST and the University of Maryland