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Trapped Ion Quantum Computing
Multi-parameter estimation along quantum trajectories with Sequential Monte Carlo methods
arXiv
Authors: Jason F Ralph, Simon Maskell, Kurt Jacobs
Year
2017
Paper ID
44602
Status
Preprint
Abstract Read
~2 min
Abstract Words
116
Citations
N/A
Abstract
This paper proposes an efficient method for the simultaneous estimation of the state of a quantum system and the classical parameters that govern its evolution. This hybrid approach benefits from efficient numerical methods for the integration of stochastic master equations for the quantum system, and efficient parameter estimation methods from classical signal processing. The classical techniques use Sequential Monte Carlo (SMC) methods, which aim to optimize the selection of points within the parameter space, conditioned by the measurement data obtained. We illustrate these methods using a specific example, an SMC sampler applied to a nonlinear system, the Duffing oscillator, where the evolution of the quantum state of the oscillator and three Hamiltonian parameters are estimated simultaneously.
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