Non-additive divergences yield explicit catalyst corrections in quantum thermodynamic second laws and show that reduced-state monotones are insufficient to characterize accessibility in correlated catalysis.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Bosonic nonlocal correlations degrade at finite radial distances from the event horizon and vanish at larger distances when the quantum atmosphere is accounted for, showing stronger response than in fermionic cases.
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Catalytic quantum thermodynamics beyond additivity and reduced-state monotones
Non-additive divergences yield explicit catalyst corrections in quantum thermodynamic second laws and show that reduced-state monotones are insufficient to characterize accessibility in correlated catalysis.
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Nonlocal correlations for bosonic fields in black hole quantum atmosphere
Bosonic nonlocal correlations degrade at finite radial distances from the event horizon and vanish at larger distances when the quantum atmosphere is accounted for, showing stronger response than in fermionic cases.