Related papers: Moment dynamics and observer design for a class of quasilinear quantum stochastic systems

Moment dynamics and observer design for a class of quasilinear quantum stochastic systems

URL: http://arxiv.org/abs/2012.08212v1
Date: Tue, 15 Dec 2020 11:01:53 GMT
Title: Moment dynamics and observer design for a class of quasilinear quantum stochastic systems
Authors: Igor G. Vladimirov, Ian R. Petersen
Abstract summary: This paper is concerned with a class of open quantum systems whose dynamic variables have an algebraic structure. The system interacts with external bosonic fields, and its Hamiltonian and coupling operators depend linearly on the system variables. The tractability of the moment dynamics is also used for mean square optimal Luenberger observer design in a measurement-based filtering problem for a quasilinear quantum plant.
Score: 2.0508733018954843
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: This paper is concerned with a class of open quantum systems whose dynamic variables have an algebraic structure, similar to that of the Pauli matrices pertaining to finite-level systems. The system interacts with external bosonic fields, and its Hamiltonian and coupling operators depend linearly on the system variables. This results in a Hudson-Parthasarathy quantum stochastic differential equation (QSDE) whose drift and dispersion terms are affine and linear functions of the system variables. The quasilinearity of the QSDE leads to tractable dynamics of mean values and higher-order multi-point moments of the system variables driven by vacuum input fields. This allows for the closed-form computation of the quasi-characteristic function of the invariant quantum state of the system and infinite-horizon asymptotic growth rates for a class of cost functionals. The tractability of the moment dynamics is also used for mean square optimal Luenberger observer design in a measurement-based filtering problem for a quasilinear quantum plant, which leads to a Kalman-like quantum filter.

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