A Tavis-Cummings-derived 3DOF Hamiltonian system exhibits a singular fiber homeomorphic to S²×S¹ with A₂ singularity, together with its bifurcation diagram and Hamiltonian monodromy.
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Calculations indicate graphene nanoplasmonic antennas enable the lowest threshold (g = 4 meV) for strong-coupling signatures in near-infrared scintillator nanocrystals, governed by emitter dephasing and antenna linewidth.
A classical agent extracts more work from quantum temporal correlations via adaptive strategies bounded by the new Time-Ordered Free Energy, while reinforcement learning achieves polylogarithmic dissipation when learning unknown states.
A monolithic bow-tie cavity with finesse 5.7e4 is realized for homogeneous coupling to Sr atoms at 689 nm, projected to enable up to 28 dB spin squeezing for quantum-enhanced interferometry.
Fractional time Schrödinger equations applied to the time-dependent Jaynes-Cummings model introduce non-Markovian memory that damps oscillations, controls entanglement, and preserves non-periodic dynamics under sinusoidal coupling.
Incoherent qubit pumping combined with dispersive magnon-number selectivity stabilizes Wigner-negative magnon Fock states, with an analytical birth-death model matching numerics.
A review summarizing input-output methods, theoretical proposals, and experimental demonstrations of emitter-based single-photon switches in nanophotonic structures.
Proposes non-dimensionalization of the Stokes-Brinkman model and studies the effect of the resulting dimensionless number A on outflow and Darcy-Stokes transition.
citing papers explorer
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Hamiltonian Monodromy in a Tavis-Cummings System with an $A_2$ Singularity
A Tavis-Cummings-derived 3DOF Hamiltonian system exhibits a singular fiber homeomorphic to S²×S¹ with A₂ singularity, together with its bifurcation diagram and Hamiltonian monodromy.
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Tuning light-matter interaction of near-infrared nanoplasmonic scintillators
Calculations indicate graphene nanoplasmonic antennas enable the lowest threshold (g = 4 meV) for strong-coupling signatures in near-infrared scintillator nanocrystals, governed by emitter dephasing and antenna linewidth.
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A Demon that remembers: An agential approach towards quantum thermodynamics of temporal correlations
A classical agent extracts more work from quantum temporal correlations via adaptive strategies bounded by the new Time-Ordered Free Energy, while reinforcement learning achieves polylogarithmic dissipation when learning unknown states.
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Towards Entanglement-Enhanced Atom Interferometry Using Bow-Tie Cavities
A monolithic bow-tie cavity with finesse 5.7e4 is realized for homogeneous coupling to Sr atoms at 689 nm, projected to enable up to 28 dB spin squeezing for quantum-enhanced interferometry.
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Non-Markovian Light-Matter Dynamics in the Time Fractional Jaynes-Cummings Model with Modulated Coupling
Fractional time Schrödinger equations applied to the time-dependent Jaynes-Cummings model introduce non-Markovian memory that damps oscillations, controls entanglement, and preserves non-periodic dynamics under sinusoidal coupling.
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Wigner-Negative Magnon Steady States from Incoherent Qubit Pumping
Incoherent qubit pumping combined with dispersive magnon-number selectivity stabilizes Wigner-negative magnon Fock states, with an analytical birth-death model matching numerics.
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Routing single photons with quantum emitters coupled to nanostructures
A review summarizing input-output methods, theoretical proposals, and experimental demonstrations of emitter-based single-photon switches in nanophotonic structures.
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A study on Stokes-Brinkman dimensionless model for flow in porous media
Proposes non-dimensionalization of the Stokes-Brinkman model and studies the effect of the resulting dimensionless number A on outflow and Darcy-Stokes transition.