A customized differential evolution algorithm designs LQG controllers for a quantum optical system, achieving lower performance indices while satisfying physical realizability constraints.
Continuous quantum error correction via quantum feedback control
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Analyzes control of non-Markovian quantum dynamics in cavity-QED atom-oscillator systems via stability of nonlinear decay equations leading to linear time-varying state evolution and feedback modulation of steady states.
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Learning-Based Design of LQG Controllers in Quantum Coherent Feedback
A customized differential evolution algorithm designs LQG controllers for a quantum optical system, achieving lower performance indices while satisfying physical realizability constraints.
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On the non-Markovian quantum control dynamics
Analyzes control of non-Markovian quantum dynamics in cavity-QED atom-oscillator systems via stability of nonlinear decay equations leading to linear time-varying state evolution and feedback modulation of steady states.