Strongly-Interacting Fermi Gases in Reduced Dimensions
Abstract
All-optical trapping methods are used to produce and study a two-component strongly-interacting Fermi gas near a Fesh bach resonance in a unique quasi-two-dimensional regime, where the cloud is far from three dimensional, but not quite two-dimensional. We measure the radio-frequency spectra and the thermodynamic properties in spin-imbalanced mixtures to explore predictions of the phase diagram and high temperature superfluidity. Our recent measurements reveal that pairing energy and cloud profiles can be explained in part by a polaron model, in which an atom of one spin state is surrounded by a particle-hole cloud of the other spin state. However, a phase separation transition to a balanced central core is not predicted by the model. Our measurements provide the first benchmarks for predictions of the phase diagram for a spin-imbalanced mixtures in a quasi-two-dimensional system.
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 16, 2015
- Accession Number
- AD1007422
Entities
People
- John E. Thomas
Organizations
- North Carolina State University