Develops a resource-theoretic framework for coherence in continuous position basis using a measurement-induced dephasing channel, defining quantifiers, witnesses, and an application to Gaussian wavepackets in gravitational potentials.
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Catalysis can enhance coherence fraction after noisy channels under analyzed conditions, and a nec-and-suff condition is given for incoherent-state-preserving CPTP maps to be Strictly Incoherent Operations.
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Resource theory of coherence in continuous position basis from measurement-induced dephasing
Develops a resource-theoretic framework for coherence in continuous position basis using a measurement-induced dephasing channel, defining quantifiers, witnesses, and an application to Gaussian wavepackets in gravitational potentials.
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Catalytic Enhancement of Coherence in Noisy Quantum Channels and Characterization of Strictly Incoherent Operations
Catalysis can enhance coherence fraction after noisy channels under analyzed conditions, and a nec-and-suff condition is given for incoherent-state-preserving CPTP maps to be Strictly Incoherent Operations.