English

Cooling through optimal control of quantum evolution

Quantum Gases 2013-04-09 v2

Abstract

Nonadiabatic unitary evolution with tailored time-dependent Hamiltonians can prepare systems of cold atomic gases with various desired properties. For a system of two one-dimensional quasicondensates coupled with a time-varying tunneling amplitude, we show that the optimal protocol, for maximizing any figure of merit in a given time, is bang-bang, i.e., the coupling alternates between only two values through a sequence of sudden quenches. Minimizing the energy of one of the quasicondensates with such nonadiabatic protocols, and then decoupling it at the end of the process, can result in effective cooling beyond the current state of the art. Our cooling method can be potentially applied to arbitrary systems through an integration of the experiment with simulated annealing computations.

Keywords

Cite

@article{arxiv.1210.5244,
  title  = {Cooling through optimal control of quantum evolution},
  author = {Armin Rahmani and Takuya Kitagawa and Eugene Demler and Claudio Chamon},
  journal= {arXiv preprint arXiv:1210.5244},
  year   = {2013}
}

Comments

6 pages, 2 figures

R2 v1 2026-06-21T22:24:23.062Z