Persistent flow in a toroidal BEC with a tunable barrier

Kevin Wright; Sergio Muniz; Anand Ramanathan; William Phillips; Gretchen Campbell

Persistent flow in a toroidal BEC with a tunable barrier

ORAL

Abstract

We are investigating the stability of persistent flow in a toroidal BEC. The BEC is held in a red-detuned optical trap formed by two beams: a tightly focused ``sheet'' of light providing tight vertical confinement, and a Laguerre-Gaussian beam confining the BEC to a ring in the radial direction. To this trap we have added a blue-detuned light sheet to create a variable ``weak link'' in the ring. The geometry of this BEC system is analogous to that of a superconducting quantum interference device (SQUID). We will present results of our investigation of this system, and discuss prospects for realizing an atomic analog of a SQUID.

May 27, 2010, 9:48 AM – May 27, 2010, 10:00 AM

Authors

Kevin Wright

Joint Quantum Institute UMD/NIST Gaithersburg, JQI, NIST, and U. of Maryland
Sergio Muniz

Joint Quantum Institute UMD/NIST Gaithersburg, JQI, NIST, and U. of Maryland
Anand Ramanathan

Joint Quantum Institute UMD/NIST Gaithersburg, JQI, NIST, and U. of Maryland
William Phillips

University of Maryland and NIST, JQI, JQI, NIST and The University of Maryland, JQI, NIST, and U. of Maryland
Gretchen Campbell

JQI, NIST, and U. of Maryland