Information geometry and local asymptotic normality for multi-parameter estimation of quantum Markov dynamics

Madalin Guta, Jukka Kiukas

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13 Citations (Scopus)
316 Downloads (Pure)

Abstract

This paper deals with the problem of identifying and estimating dynamical parameters of continuous-time Markovian quantum open systems, in the input-output formalism. First, we characterise the space of identifiable parameters for ergodic dynamics, assuming full access to the output state for arbitrarily long times, and show that the equivalence classes of undistinguishable parameters are orbits of a Lie group acting on the space of dynamical parameters. Second, we define an information geometric structure on this space, including a principal bundle given by the action of the group, as well as a compatible connection, and a Riemannian metric based on the quantum Fisher information of the output. We compute the metric explicitly in terms of the Markov covariance of certain “fluctuation operators” and relate it to the horizontal bundle of the connection. Third, we show that the system-output and reduced output state satisfy local asymptotic normality, i.e., they can be approximated by a Gaussian model consisting of coherent states of a multimode continuous variables system constructed from the Markov covariance “data.” We illustrate the result by working out the details of the information geometry of a physically relevant two-level system
Original languageEnglish
Article number052201
JournalJournal of Mathematical Physics
Volume58
Issue number5
DOIs
Publication statusPublished - 11 May 2017

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