Continuous coherent noise modeled via von Mises-Fisher rotations degrades logical performance in quantum error-correcting codes more than equivalent Pauli noise.
Security Analysis of MDI- QKD in Turbulent Free-Space Polarization Channels—A Composite Channel Framework
2 Pith papers cite this work. Polarity classification is still indexing.
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A time-dependent receiver interface is derived for turbulent free-space quantum polarization links by modeling turbulence effects as slow-time hidden stochastic processes and applying a leading-order closure to obtain effective time-varying depolarization, coherence, and detection parameters.
citing papers explorer
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Continuous Noise Model for Quantum Circuits
Continuous coherent noise modeled via von Mises-Fisher rotations degrades logical performance in quantum error-correcting codes more than equivalent Pauli noise.
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A Slow-Time Receiver Interface for Turbulent Free-Space Quantum Polarization Links
A time-dependent receiver interface is derived for turbulent free-space quantum polarization links by modeling turbulence effects as slow-time hidden stochastic processes and applying a leading-order closure to obtain effective time-varying depolarization, coherence, and detection parameters.