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Prof. Dr. M. Weidemüller
Physikalisches Institut
Im Neuenheimer Feld 226
69120 Heidelberg
 
06221-5419470
Claudia Krämer
22.11.2017 17:00 / 17:30
Creating multiparticle entanglement with optical fiber microcavities
Prof. Jakob Reichel, Laboratoire Kastler Brossel de l'E.N.S., UPMC, Institut Universitaire de France, Kirchhoff-Institut, INF 227 SR 1.403

CQD special colloquium

 

18. May 2017 11:00

Konferenzraum 4, 01.106, Physikalisches Institut, INF 226

Strongly interacting two-dimensional fermionic atomic gases

Associate Professor Daniel Sheehy
Department of Physics and Astronomy, Louisiana State University, Baton Rouge, USA


Trapped fermionic atomic gases exhibit superfluid states, akin to
superconductivity in a metal, due to the pairing of two species of
atomic fermion.   Recent atomic physics experiments have focused on
the two-dimensional regime, in which a strong trapping potential
confines the atomic fermions to a "pancake"-shaped geometry.  I will
discuss two recent theoretical projects from my group on 2D gases.
The first addresses the possibility of an FFLO phase of 2D Fermi gases
under an imposed population imbalance in the two species of fermion,
and the second addresses interaction effects on the density profiles
of 2D Fermi gases in the normal (nonsuperfluid phase) above the
transition temperature. 
 

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