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DTSTART;VALUE=DATE:20190522T171500
DTEND;VALUE=DATE:20190522T181500
UID:5900@agenda.unifr.ch
DESCRIPTION:Generically, driving a many-body system by radiation simply induces heating. However, by using smart driving protocols one can actually achieve the exact opposite: very cold states of quantum matter. Even though being out-of-equilibrium, those may have an extremely low effective temperature. I will review several new insights into techniques that can be used to achieve such cold states and the physical mechanisms at play.\nIn particular I will discuss the so-called thermal mixing method, by which one generates a cool steady state of electronic spins that then cool and hyperpolarize nuclear spins - a crucial step to enhance the contrast in NMR. Interestingly the cooling effect is optimized by tuning the system to its many-body localization transition. Another promising cooling scheme uses optical doping from a narrow core band into a Hubbard band and thereby generates excited states with so low temperatures that ordering is induced. These ideas are first steps towards  the ultrafast induction and control of magnetic or electronic order on demand. The physical principles involved apply to a variety of other condensed matter systems, as well as to cold (fermionic) atoms which have been notoriously difficult to cool.
SUMMARY:Cooling quantum matter by non-linear driving
CATEGORIES:Colloque / Congrès / Forum
LOCATION:PER 08\, 0.51\, Chemin du Musée 3\, 1700 Fribourg
URL;VALUE=URI:https://agenda.unifr.ch/e/fr/5900
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