Modified Landauer's principle: How much can the Maxwell's demon gain by using general system-environment quantum state?
Sayan MondalAparajita BhattacharyyaAhana GhoshalUjjwal Sen
Sayan MondalAparajita BhattacharyyaAhana GhoshalUjjwal Sen
Sep 2023
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摘要原文
The Landauer principle states that decrease in entropy of a system, inevitably leads to a dissipation of heat to the environment. This statement is usually established by considering the system to be in contact with an environment that is initially in a thermal state with the system-environment initial state being in a product state. Here we show that a modified Landauer principle, with correction terms, still holds even if the system and environment are initially correlated and the environment is in an athermal state. Furthermore, we consider a case where the system is in contact with a large athermal environment, such that the system dynamics allow Born-Markov approximations, and we derive the finite-time modified Landauer's bound for the same.
