Measurement backaction on a spinor condensate from off-resonant light

Steven Steinke; Swati Singh; Pierre Meystre; Keith Schwab; Mukund Vengalattore

Measurement backaction on a spinor condensate from off-resonant light

ORAL

Abstract

We study the quantum backaction of spin precession imaging measurements on a Bose-Einstein condensate by off-resonant light. Two main results are the derivation of a quantum jump operator describing the small, abrupt change in the spin state of the atoms caused by the detection of a single photon and a conditional stochastic master equation for the evolution of the condensate subject to a particular measurement record. We examine the implications of these backaction effects for magnetometry and also evaluate their utility in quantum state preparation.

June 4, 2013, 11:42 AM – June 4, 2013, 11:54 AM

Authors

Steven Steinke
- College of Optical Sciences, University of Arizona
Swati Singh
- ITAMP, University of Connecticut
- ITAMP, Harvard-Smithsonian Center for Astrophysics
Pierre Meystre
- University or Arizona
- The University of Arizona
- University of Arizona
- College of Optical Sciences, University of Arizona
Keith Schwab
- California Institute of Technology
- Applied Physics, California Institute of Technology
Mukund Vengalattore
- Cornell University
- Laboratory of Atomic and Solid State Physics, Cornell University