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Accueil du site > Annonces - Congrès - Workshops > Conférences et ateliers - Autres > Année 2010 > QFS 2010 Satellite Workshop - Cold Gases meet Many-Body Theory

QFS 2010 Satellite Workshop - Cold Gases meet Many-Body Theory

The workshop will be held on August 7, 2010 and will take place in the CNRS-Institut Néel, 25 Rue des Martyrs, Scientifique Polygône, Grenoble.

Organizers

  • Jordi Boronat jordi.boronat upc.edu
  • Markus Holzmann markus lptl.jussieu.fr
  • Anna Minguzzi anna.minguzzi grenoble.cnrs.fr
  • Eckhard Krotscheck Eckhard.Krotscheck jku.at
  • Birgitta Whaley whaley berkeley.edu
    Over the past 10 years, experimental progress in realizing strongly interacting cold atomic gases have stimulated an enormous surge of interest in examining their properties, for both fermionic and bosonic systems. In atomic gases, correlated regimes are experimentally accessible using Feshbach resonances to tune the scattering length to large values. Current experiments have now started to go beyond the dilute-gas limit, accessing regimes which cannot be described using a single-particle or mean-field description and where many-body correlations are essential for their understanding. Interacting fermions in the BEC-BCS crossover, dense Bose gases, spinor systems and bosonic and fermionic systems on lattices are just a few examples which show clear signatures of correlations. Correlation effects are well known in the field of quantum fluids. Accurate descriptions of quantum many-body correlations have always been central for the understanding of properties in nuclei/nuclear matter, helium fluids, and strongly correlated electron systems. The many sophisticated theoretical methods have been developed over the years in these areas have significant potential for application to cold gases in the strongly interacting regime that is now opening up to experimental investigation.

It aims to bring together the two communities of quantum fluids and cold gases in order to stimulate fruitful interactions and to explore the application of quantum many-body methods to cold gases. Doing this as a satellite in conjunction with the QFS 2010 symposium is a highly efficacious way to bring the two communities together and will capitalize on the presence of a usually significant group of quantum fluid theorists at the QFS symposia.

Interested colleagues are kindly invited to contact one of the organizers. If needed, we will consider to extend the meeting by one half day in the morning of Aug. 8.

Voir en ligne : http://qfs2010.neel.cnrs.fr