The paper introduces a Davies-Morris-Shore framework that analytically constructs dark, bright, and funnel states in interacting qutrit systems for long-lived energy storage under dissipation.
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3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
quant-ph 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Quantum batteries using periodically kicked Ising models maintain robust charging under finite temperature and dissipation in identified parameter regimes.
Engineered non-Gaussian coherence serves as a thermodynamic resource that optimizes quantum battery performance beyond Gaussian states for Gaussian charger profiles under unitary dynamics.
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Davies-Morris-Shore Framework for Multilevel Quantum Batteries: Dark and Funnel States in Interacting Qutrit Systems
The paper introduces a Davies-Morris-Shore framework that analytically constructs dark, bright, and funnel states in interacting qutrit systems for long-lived energy storage under dissipation.
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Impact of thermal and dissipative effects in a periodically-kicked quantum battery
Quantum batteries using periodically kicked Ising models maintain robust charging under finite temperature and dissipation in identified parameter regimes.
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Engineered non-Gaussian Coherence as a Thermodynamic Resource for Quantum Batteries
Engineered non-Gaussian coherence serves as a thermodynamic resource that optimizes quantum battery performance beyond Gaussian states for Gaussian charger profiles under unitary dynamics.