Swift heat transfer by fast-forward driving in open quantum systems
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Published version
Date
2019-07-24
Authors
Villazon, Tamiro
Polkovnikov, Anatoli
Chandran, Anushya
Version
Published version
OA Version
Citation
Tamiro Villazon, Anatoli Polkovnikov, Anushya Chandran. "Swift heat transfer by fast-forward driving in open quantum systems." Physical Review A, Volume 100, Issue 1, https://doi.org/10.1103/physreva.100.012126
Abstract
Typically, time-dependent thermodynamic protocols need to run asymptotically slowly in order to avoid dissipative losses. By adapting ideas from counterdiabatic driving and Floquet engineering to open systems, we develop fast-forward protocols for swiftly thermalizing a system oscillator locally coupled to an optical phonon bath. These protocols control the system frequency and the system-bath coupling to induce a resonant state exchange between the system and the bath. We apply the fast-forward protocols to realize a fast approximate Otto engine operating at high power near the Carnot efficiency. Our results suggest design principles for swift cooling protocols in coupled many-body systems.
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License
"© 2019 American Physical Society. The final published version of this article appears in OpenBU by permission of the publisher."