Scientific Calendar Event

Starts 17 Apr 2018 11:00
Ends 17 Apr 2018 12:00
Central European Time
Leonardo Building - Luigi Stasi Seminar Room
The grand canonical ensemble lies at the core of quantum and classical statistical mechanics. A small system thermalizes to this ensemble while exchanging heat and particles with a bath. A quantum system may exchange quantities represented by operators that fail to commute. Whether such a system thermalizes and what form the thermal state has are questions about truly quantum thermodynamics. Here we investigate this thermal state from three perspectives. First, we introduce an approximate microcanonical ensemble. If this ensemble characterizes the system-and-bath composite, tracing out the bath yields the system's thermal state. This state is expected to be the equilibrium point, we argue, of typical dynamics. Finally, we define a resource-theory model for thermodynamic exchanges of noncommuting observables. Complete passivity -- the inability to extract work from equilibrium states -- implies the thermal state's form, too. Our work opens new avenues into equilibrium in the presence of quantum noncommutation.

[Based on 1512.01189 with N. Yunger Halpern, P. Faist and J. Oppenheim.]