Quantum spin dynamics of mode-squeezed Luttinger liquids in two-component atomic gases

Quantum spin dynamics of mode-squeezed Luttinger liquids in two-component atomic gases

We report on the observation of many-body spin dynamics of interacting, one-dimensional (1D) ultracold bosonic gases with two spin states. By controlling the nonlinear atomic interactions close to a Feshbach resonance we are able to induce a phase diffusive many-body spin dynamics of the relative ph...

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Veröffentlicht in:Physical review letters 2008-04, Vol.100 (14), p.140401-140401, Article 140401
Hauptverfasser: Widera, Artur, Trotzky, Stefan, Cheinet, Patrick, Fölling, Simon, Gerbier, Fabrice, Bloch, Immanuel, Gritsev, Vladimir, Lukin, Mikhail D, Demler, Eugene
Format: Artikel
Sprache:eng
Schlagworte:
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
Condensed Matter
EVOLUTION
EXCITED STATES
GASES
INTERACTIONS
INTERFEROMETRY
MANY-BODY PROBLEM
NONLINEAR PROBLEMS
ONE-DIMENSIONAL CALCULATIONS
Other
Physics
QUANTUM MECHANICS
SPIN
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Zusammenfassung:We report on the observation of many-body spin dynamics of interacting, one-dimensional (1D) ultracold bosonic gases with two spin states. By controlling the nonlinear atomic interactions close to a Feshbach resonance we are able to induce a phase diffusive many-body spin dynamics of the relative phase between the two components. We monitor this dynamical evolution by Ramsey interferometry, supplemented by a novel, many-body echo technique, which unveils the role of quantum fluctuations in 1D. We find that the time evolution of the system is well described by a Luttinger liquid initially prepared in a multimode squeezed state. Our approach allows us to probe the nonequilibrium evolution of one-dimensional many-body quantum systems.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.100.140401