Interaction between two Andreev bound state units enhances ergotropy and induces oscillatory charging dynamics in a phase-driven quantum battery.
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Dissipative dynamics activate finite ergotropy from thermal quantum spin chains, with collective effects creating temperature- and size-dependent steady-state passivity via dark subspaces, while dephasing suppresses extraction.
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Interaction-Enhanced Ergotropy in Phase-Driven Andreev Bound State Quantum Batteries
Interaction between two Andreev bound state units enhances ergotropy and induces oscillatory charging dynamics in a phase-driven quantum battery.
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Charging Quantum Batteries via Dissipative Quenches
Dissipative dynamics activate finite ergotropy from thermal quantum spin chains, with collective effects creating temperature- and size-dependent steady-state passivity via dark subspaces, while dephasing suppresses extraction.