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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A measurement-only model with fermionic and ancilla chains generates volume-law entanglement and mutual information via local non-random non-commuting measurements, including using only one-body operators.
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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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Generation of Volume-Law Entanglement by Local-Measurement-Only Quantum Dynamics
A measurement-only model with fermionic and ancilla chains generates volume-law entanglement and mutual information via local non-random non-commuting measurements, including using only one-body operators.