Nonreciprocity modulates inter-dot information flow in a quantum dot information engine and maps to an effective reciprocal system via reparameterized chemical potentials.
Geometric decomposition of information flow: New insights into information thermodynamics
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abstract
We propose a decomposition of information flow into housekeeping and excess components for autonomous bipartite systems described by Markov jump processes. We introduce this decomposition using the geometric structure of probability currents and the conjugate thermodynamic forces. The housekeeping component arises from cyclic modes caused by violations of detailed balance and maintains the correlations between the two subsystems. In contrast, the excess component arises from conservative forces and alters the mutual information between the two subsystems. With this decomposition, we generalize previous results, such as the second law of information thermodynamics, the cyclic decomposition, and the information-thermodynamic extensions of thermodynamic trade-off relations.
fields
cond-mat.stat-mech 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Manipulation of information flow and thermodynamic performance in nonreciprocal quantum dot information engines
Nonreciprocity modulates inter-dot information flow in a quantum dot information engine and maps to an effective reciprocal system via reparameterized chemical potentials.