Spin-boson systems with two-photon interactions show distinct mixed eigenstate behavior compared to one-photon cases, identified via a new phase-space overlap index that supports the principle of uniform semiclassical condensation of quasiprobability functions.
Universal quantum simulators
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Presents a quantum Hamiltonian whose ground state encodes equivalence classes of expressions, enabling verification, counting, and structural queries on instances far beyond classical reach.
Reviews paradigmatic entanglement quantifiers and state-of-the-art detection/certification methods, with emphasis on assumptions about states and measurements.
citing papers explorer
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Mixed eigenstates in spin-boson systems with one-photon and two-photon interactions
Spin-boson systems with two-photon interactions show distinct mixed eigenstate behavior compared to one-photon cases, identified via a new phase-space overlap index that supports the principle of uniform semiclassical condensation of quasiprobability functions.
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Quantum algorithms for equational reasoning
Presents a quantum Hamiltonian whose ground state encodes equivalence classes of expressions, enabling verification, counting, and structural queries on instances far beyond classical reach.
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Entanglement Certification $-$ From Theory to Experiment
Reviews paradigmatic entanglement quantifiers and state-of-the-art detection/certification methods, with emphasis on assumptions about states and measurements.