A tensor-network framework models transport-induced autonomous mechanical oscillations in quantum electromechanics without real-time propagation.
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2026 2representative citing papers
Systematic numerical benchmarking shows Floquet master equation accuracy tracks their underlying assumptions, with secular-approximation versions failing near resonances while non-secular versions show smoother error dependence on drive parameters.
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Autonomous oscillations in quantum electromechanics: tensor network treatment
A tensor-network framework models transport-induced autonomous mechanical oscillations in quantum electromechanics without real-time propagation.
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Benchmarking Floquet Master Equations for Periodically Driven Open Quantum Systems
Systematic numerical benchmarking shows Floquet master equation accuracy tracks their underlying assumptions, with secular-approximation versions failing near resonances while non-secular versions show smoother error dependence on drive parameters.