Defines a resource theory of GPT-contextuality whose free operations are classical systems and univalent simulations, yielding monotones including classical excess (minimal embedding error into infinite classical systems) and parity-oblivious multiplexing success probability, with noncontextual GPTs
Resources of the quantum world
4 Pith papers cite this work. Polarity classification is still indexing.
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Introduces occupation number entropies (Tsallis) and natural-orbital participation entropies (Renyi) as computable convex resource monotones for fermionic non-Gaussianity from the covariance matrix.
Hybrid qubit-qutrit quantum battery shows oscillatory ergotropy and power with constant capacity, enhanced by nonclassical correlations, and mapped to a room-temperature nickel-radical molecular complex.
A quantum autonomous thermal machine generates entanglement in an external two-qubit system only under thermodynamic cycle A, which exhibits stronger non-Markovianity and higher coherence.
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Resource-theoretic hierarchy of contextuality for general probabilistic theories
Defines a resource theory of GPT-contextuality whose free operations are classical systems and univalent simulations, yielding monotones including classical excess (minimal embedding error into infinite classical systems) and parity-oblivious multiplexing success probability, with noncontextual GPTs
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Computable measures of fermionic non-Gaussianity from the covariance matrix
Introduces occupation number entropies (Tsallis) and natural-orbital participation entropies (Renyi) as computable convex resource monotones for fermionic non-Gaussianity from the covariance matrix.
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Hybrid Qubit-Qutrit Quantum Battery: Nonclassicality and Energy Performance
Hybrid qubit-qutrit quantum battery shows oscillatory ergotropy and power with constant capacity, enhanced by nonclassical correlations, and mapped to a room-temperature nickel-radical molecular complex.
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Generation of Quantum Entanglement in Autonomous Thermal Machines: Effects of Non-Markovianity, Hilbert Space Structure, and Quantum Coherence
A quantum autonomous thermal machine generates entanglement in an external two-qubit system only under thermodynamic cycle A, which exhibits stronger non-Markovianity and higher coherence.