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SUMMARY:F. Scazza - Ultracold atomic Fermi gases in the strongly correlate
 d regime (part 1)
DTSTART;VALUE=DATE-TIME:20190918T090000Z
DTEND;VALUE=DATE-TIME:20190918T103000Z
DTSTAMP;VALUE=DATE-TIME:20260306T235344Z
UID:indico-contribution-184@cern.ch
DESCRIPTION:Ultracold atomic gases provide a formidable platform for quant
 um simulation of a variety of models initially introduced in condensed mat
 ter physics or other areas. One of the most promising applications of quan
 tum simulation is the study of strongly correlated Fermi gases\, for which
  accurate theoretical predictions are challenging even with state-of-the-a
 rt approaches. In this lecture\, I will first briefly review the foundatio
 ns of atom-light interactions and explain how these are exploited to cool\
 , trap and manipulate atoms. I will then introduce ultracold atomic Fermi 
 gases\, from the non-interacting case to the famous strongly correlated BE
 C-BCS crossover. I will also describe some recent experiments\, highlighti
 ng the unique and fascinating aspects of crossover superfluids. In the sec
 ond part of the lecture\, I will present a general introduction to the Fer
 mi-Hubbard model and outline its realization with ultracold fermions in op
 tical lattices\, highlighting the foremost experimental achievements so fa
 r. To conclude\, I will shortly discuss some novel approaches to quantum s
 imulation of quantum magnetism and long-range interacting systems.\n\nhttp
 s://indico.unina.it/event/24/contributions/184/
LOCATION:
URL:https://indico.unina.it/event/24/contributions/184/
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