Minimizing Dissipation via Interacting Environments: Quadratic Convergence to Landauer Bound
Abstract
We explore the fundamental limits on thermodynamic irreversibility when cooling a quantum system in the presence of a finite-size reservoir. First, we prove that for any non-interacting n-particle reservoir, the entropy production decays at most linearly with n. Instead, we derive a cooling protocol in which 1/n2, which is in fact the best possible scaling. This becomes possible due to the presence of interactions in the finite-size reservoir, which must be prepared at the verge of a phase transition. Our results open the possibility of cooling with a higher energetic efficiency via interacting reservoirs.
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