Quantum Phase Transitions and Continuous Observation of Spinor Dynamics in an Antiferromagnetic Condensate

Yingmei Liu; Sebastian Jung; Stephen E. Maxwell; Lincoln D. Turner; Eite Tiesinga; Paul. D. Lett

doi:10.1103/PhysRevLett.102.125301

Quantum Phase Transitions and Continuous Observation of Spinor Dynamics in an Antiferromagnetic Condensate

Other Condensed Matter 2009-11-13 v1

Authors: Yingmei Liu , Sebastian Jung , Stephen E. Maxwell , Lincoln D. Turner , Eite Tiesinga , Paul. D. Lett

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Abstract

Condensates of spin-1 sodium display rich spin dynamics due to the antiferromagnetic nature of the interactions in this system. We use Faraday rotation spectroscopy to make a continuous and minimally destructive measurement of the dynamics over multiple spin oscillations on a single evolving condensate. This method provides a sharp signature to locate a magnetically tuned separatrix in phase space which depends on the net magnetization. We also observe a phase transition from a two- to a three-component condensate at a low but finite temperature using a Stern-Gerlach imaging technique. This transition should be preserved as a zero-temperature quantum phase transition.

Keywords

spinor bose-einstein condensates magnetism magnetic phase transitions

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@article{arxiv.0902.3189,
  title  = {Quantum Phase Transitions and Continuous Observation of Spinor Dynamics in an Antiferromagnetic Condensate},
  author = {Yingmei Liu and Sebastian Jung and Stephen E. Maxwell and Lincoln D. Turner and Eite Tiesinga and Paul. D. Lett},
  journal= {arXiv preprint arXiv:0902.3189},
  year   = {2009}
}

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Accepted for publication in Physical Review Letters

Quantum Phase Transitions and Continuous Observation of Spinor Dynamics in an Antiferromagnetic Condensate

Abstract

Keywords

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