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Paper detail

Classical Tracking for Quantum Trajectories

Quantum state estimation, based on the numerical integration of stochastic master equations (SMEs), provides estimates for the evolution of quantum systems subject to continuous weak measurements. The approach is similar to classical state estimation methods in that the quantum trajectories produced by solving the SME are conditioned on continuous classical measurement signals. In this paper, we explore the use of classical state estimation for a candidate quantum system, one based on an experimentally realisable system: a material object undergoing continuous feedback cooling in an optical trap. In particular, we demonstrate that classical tracking methods based on particle filters can be used to track quantum states, and are particularly useful for higher temperature regimes where quantum state estimation becomes computationally demanding.

preprint2022arXivOpen access
Jason F RalphSimon MaskellMichael RansomHendrik Ulbricht
quant-ph
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Jason F RalphSimon MaskellMichael RansomHendrik Ulbricht

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