Compressibility of a Repulsive Fermi Gas of ^6 Li

Myoung-Sun Heo; Yeryoung Lee; Tout T. Wang; Timur M. Rvachov; Wolfgang Ketterle; David E. Pritchard

Compressibility of a Repulsive Fermi Gas of $^6$ Li

ORAL

Abstract

We studied the equilibrium properties of a two-component repulsive Fermi gas of $^6$ Li by measuring the compressibility at various interaction strengths near a Feshbach resonance at 834G. The compressibility was extracted from in-trap atomic density profiles, and agrees with first order perturbation theory. Our experiment uses phase-contrast imaging to probe atomic clouds with large optical density, requiring compensation of dispersive effects. The feasibility window for such experiments is limited by decay to a near-resonant molecular bound state, and we explore the limits of this window by measuring decay rates at various interaction strengths.

June 7, 2012, 8:00 AM – June 7, 2012, 8:12 AM

Authors

Myoung-Sun Heo
- MIT
- Research Laboratory for Electronics, Department of Physics, MIT
Yeryoung Lee
- MIT
Tout T. Wang
- MIT
Timur M. Rvachov
- MIT
- Research Laboratory for Electronics, Department of Physics, MIT
Wolfgang Ketterle
- MIT
- Research Laboratory for Electronics, Department of Physics, MIT
David E. Pritchard
- MIT
- Research Laboratory for Electronics, Department of Physics, MIT