Weak Gaussian noise in control fields makes dissipation grow linearly with steps in quantum equilibration, yielding a finite optimal step count and minimal dissipated work derived from quantum thermodynamic length.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Derivative feedback in PID control affects both conditional and unconditional squeezing of a mechanical quadrature in an optomechanical system and enables tracking of desired signals.
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Finite steps optimise dissipation in stochastically controlled quantum systems
Weak Gaussian noise in control fields makes dissipation grow linearly with steps in quantum equilibration, yielding a finite optimal step count and minimal dissipated work derived from quantum thermodynamic length.
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Squeezing and measurement of a mechanical quadrature via PID feedback
Derivative feedback in PID control affects both conditional and unconditional squeezing of a mechanical quadrature in an optomechanical system and enables tracking of desired signals.