Optimal charging of open spin-chain quantum batteries via homodyne-based
feedback control
- URL: http://arxiv.org/abs/2207.05926v1
- Date: Wed, 13 Jul 2022 02:09:56 GMT
- Title: Optimal charging of open spin-chain quantum batteries via homodyne-based
feedback control
- Authors: Y. Yao, X. Q. Shao
- Abstract summary: We study the problem of charging a dissipative one-dimensional $XXX$ spin-chain quantum battery using local magnetic fields in the presence of spin decay.
The introduction of quantum feedback control based on homodyne measurement contributes to improve various performance of the quantum battery.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We study the problem of charging a dissipative one-dimensional $XXX$
spin-chain quantum battery using local magnetic fields in the presence of spin
decay. The introduction of quantum feedback control based on homodyne
measurement contributes to improve various performance of the quantum battery,
such as energy storage, ergotropy, and effective space utilization rate. For
the zero temperature environment, there is a set of optimal parameters to
ensure that the spin-chain quantum battery can be fully charged and the energy
stored in the battery can be fully extracted under the perfect measurement
condition, which is found through the analytical calculation of a simple
two-site spin-chain quantum battery and further verified by numerical
simulation of a four-site spin-chain counterpart. For completeness, the adverse
effects of imperfect measurement, anisotropic parameter, and finite temperature
on the charging process of the quantum battery are also considered.
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