Exact Fredholm determinant representation for current FCS in dephasing tight-binding chain yields diffusive scaling in long-time cumulants.
Lindblad, Commun
6 Pith papers cite this work. Polarity classification is still indexing.
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A carbon nanotube microtoroid platform with Tomonaga-Luttinger liquid protection achieves chiral spin-momentum locking for nonreciprocal spin-photon interfaces with cooperativities above 100 and chiral contrast over 20 dB.
Environment-induced decoherence in jets decouples quarkonium spin from momentum, quenching polarization anisotropies at high p_T in a z-dependent manner consistent with CMS soft fragmentation data.
Derives bounds on minimal transport time and maximal distance for bosons in dissipative long-range systems, showing distinctions by loss type and the enabling role of decoherence-free subspaces for long-distance perfect transport.
Different unravelings of open quantum systems cannot be distinguished by any protocol without prior knowledge of the measurement scheme, since access to unraveling-dependent nonlinear statistics would violate relativistic causality.
A most-likely noise path control strategy for qubit state preparation under dephasing achieves higher success rates than mean-path methods while the latter maximize average fidelity.
citing papers explorer
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Exact Current Fluctuations in a Tight-Binding Chain with Dephasing Noise
Exact Fredholm determinant representation for current FCS in dephasing tight-binding chain yields diffusive scaling in long-time cumulants.
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A Universal Topological Platform for Nonreciprocal Spin-Photon Interface in Solid-State Quantum Networks
A carbon nanotube microtoroid platform with Tomonaga-Luttinger liquid protection achieves chiral spin-momentum locking for nonreciprocal spin-photon interfaces with cooperativities above 100 and chiral contrast over 20 dB.
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Spin-Momentum Decoupling in Quarkonium Hadronization: Polarization Quenching via Environment-Induced Decoherence in Jets
Environment-induced decoherence in jets decouples quarkonium spin from momentum, quenching polarization anisotropies at high p_T in a z-dependent manner consistent with CMS soft fragmentation data.
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Macroscopic Particle Transport in Dissipative Long-Range Bosonic Systems
Derives bounds on minimal transport time and maximal distance for bosons in dissipative long-range systems, showing distinctions by loss type and the enabling role of decoherence-free subspaces for long-distance perfect transport.
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Theoretical Limits of Protocols for Distinguishing Different Unravelings
Different unravelings of open quantum systems cannot be distinguished by any protocol without prior knowledge of the measurement scheme, since access to unraveling-dependent nonlinear statistics would violate relativistic causality.
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Quantum state-preparation control in noisy environment via most-likely paths
A most-likely noise path control strategy for qubit state preparation under dephasing achieves higher success rates than mean-path methods while the latter maximize average fidelity.