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Paper detail

Cooling through quantum criticality and many-body effects in condensed matter and cold gases

This article reviews some recent developments for new cooling technologies in the fields of condensed matter physics and cold gases, both from an experimental and theoretical point of view. The main idea is to make use of distinct many-body interactions of the system to be cooled which can be some cooling stage or the material of interest itself, as is the case in cold gases. For condensed matter systems, we discuss magnetic cooling schemes based on a large magnetocaloric effect as a result of a nearby quantum phase transition and consider effects of geometrical frustration. For ultracold gases, we review many-body cooling techniques, such as spin-gradient and Pomeranchuk cooling, which can be applied in the presence of an optical lattice. We compare the cooling performance of these new techniques with that of conventional approaches and discuss state-of-the-art applications.

preprint2016arXivOpen access
Bernd WolfAndreas HoneckerWalter HofstetterUlrich TutschMichael Lang
cond-mat.str-elcond-mat.quant-gas
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Bernd WolfAndreas HoneckerWalter HofstetterUlrich TutschMichael Lang

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