Fractional winding numbers in open quantum systems recover integer quantization over multiple momentum periods.
Lindblad, On the generators of quantum dynamical semigroups, Communications in mathematical physics 48, 119 (1976)
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Purely dissipative Lindbladians without Hamiltonian part can approximate unitary dynamics to ε error in diamond norm with O(t²/ε) time, which is optimal for time-independent cases.
Mixing time of Lindblad-governed open quantum systems is determined by the Liouvillian gap plus trace-norm factors of eigenmodes, yielding rapid mixing conditions via sparsity constraints on the Hamiltonian and local Lindblad operators.
Quantum Mpemba effect in Markovian open quantum systems can be realized via decoherence-free subspaces with decay rates that scale exponentially with system size, plus subtleties revealed by Davies map unravelings.
Bethe Ansatz analysis of the non-Hermitian Kondo model identifies a novel ~YSR phase for intermediate loss strengths alpha, yielding a four-phase diagram controlled by two RG invariants.
CPTP extensions of quantum Brownian motion violate detailed balance at steady state, resulting in non-vanishing entropy production and non-equilibrium currents.
A Python library simulates NV center spin dynamics in diamond with a non-perturbative time-dependent Hamiltonian model that includes realistic pulse constraints and optical initialization/readout to predict fluorescence observables.
citing papers explorer
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Fractional topology and multi-period re-quantization in open quantum systems
Fractional winding numbers in open quantum systems recover integer quantization over multiple momentum periods.
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Hamiltonian dynamics from pure dissipation
Purely dissipative Lindbladians without Hamiltonian part can approximate unitary dynamics to ε error in diamond norm with O(t²/ε) time, which is optimal for time-independent cases.
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Universal Predictors for Mixing Time more than Liouvillian Gap
Mixing time of Lindblad-governed open quantum systems is determined by the Liouvillian gap plus trace-norm factors of eigenmodes, yielding rapid mixing conditions via sparsity constraints on the Hamiltonian and local Lindblad operators.
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Unraveling the Quantum Mpemba Effect on Markovian Open Quantum Systems
Quantum Mpemba effect in Markovian open quantum systems can be realized via decoherence-free subspaces with decay rates that scale exponentially with system size, plus subtleties revealed by Davies map unravelings.
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Dissipation driven phase transition in the non-Hermitian Kondo model
Bethe Ansatz analysis of the non-Hermitian Kondo model identifies a novel ~YSR phase for intermediate loss strengths alpha, yielding a four-phase diagram controlled by two RG invariants.
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Broken Detailed Balance and Entropy Production in CPTP Quantum Brownian Motion
CPTP extensions of quantum Brownian motion violate detailed balance at steady state, resulting in non-vanishing entropy production and non-equilibrium currents.
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Digital Twin Simulations Toolbox of the Nitrogen-Vacancy Center in Diamond
A Python library simulates NV center spin dynamics in diamond with a non-perturbative time-dependent Hamiltonian model that includes realistic pulse constraints and optical initialization/readout to predict fluorescence observables.