Fermionic atoms in a three dimensional optical lattice : Observing fermi surfaces, dynamics, and interactions

We have studied interacting and noninteracting quantum degenerate Fermi gases in a three-dimensional optical lattice. We directly image the Fermi surface of the atoms in the lattice by turning off the optical lattice adiabatically. Because of the confining potential, gradual filling of the lattice t...

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Veröffentlicht in:	Physical review letters 2005-03, Vol.94 (8), p.080403.1-080403.4, Article 080403
Hauptverfasser:	KÖHL, Michael, MORITZ, Henning, STÖFERLE, Thilo, GÜNTER, Kenneth, ESSLINGER, Tilman
Format:	Artikel
Sprache:	eng
Schlagworte:	Classical and quantum physics: mechanics and fields Exact sciences and technology Matter waves Physics
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container_end_page	080403.4
container_issue	8
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container_title	Physical review letters
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creator	KÖHL, Michael MORITZ, Henning STÖFERLE, Thilo GÜNTER, Kenneth ESSLINGER, Tilman
description	We have studied interacting and noninteracting quantum degenerate Fermi gases in a three-dimensional optical lattice. We directly image the Fermi surface of the atoms in the lattice by turning off the optical lattice adiabatically. Because of the confining potential, gradual filling of the lattice transforms the system from a normal state into a band insulator. The dynamics of the transition from a band insulator to a normal state is studied, and the time scale is measured to be an order of magnitude larger than the tunneling time in the lattice. Using a Feshbach resonance, we increase the interaction between atoms in two different spin states and dynamically induce a coupling between the lowest energy bands. We observe a shift of this coupling with respect to the Feshbach resonance in free space which is anticipated for strongly confined atoms.
doi_str_mv	10.1103/physrevlett.94.080403
format	Article
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subjects	Classical and quantum physics: mechanics and fields Exact sciences and technology Matter waves Physics
title	Fermionic atoms in a three dimensional optical lattice : Observing fermi surfaces, dynamics, and interactions
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