Theory of Quantum Loschmidt Echoes
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概要
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In this paper we review our recent work on the theoretical approach to quantum Loschmidt echoes, i.e., various properties of the so-called echo dynamics - the composition of forward and backward time evolutions generated by two slightly different Hamiltonians, such as the state autocorrelation function (fidelity) and the purity of a reduced density matrix traced over a subsystem (purity fidelity). Our main theoretical result is a linear response formalism, expressing the fidelity and purity fidelity in terms of integrated time autocorrelation function of the generator of the perturbation. Surprisingly, this relation predicts that the decay of fidelity is the slower the faster the decay of correlations. In particular for a static (time-independent) perturbation, and for non-ergodic and non-mixing dynamics where asymptotic decay of correlations is absent, a qualitatively different and faster decay of fidelity is predicted on a time scale ∝ 1/δ as opposed to mixing dynamics where the fidelity is found to decay exponentially on a time-scale ∝ 1/δ^2, where δ is a strength of perturbation. A detailed discussion of a semi-classical regime of small effective values of Planck constant 〓 is given where classical correlation functions can be used to predict quantum fidelity decay. Note that the correct and intuitively expected classical stability behavior is recovered in the classical limit 〓 → 0, as the two limits δ → 0 and 〓 → 0 do not commute. The theoretical results are demonstrated numerically for two models, the quantized kicked top and the multi-level Jaynes Cummings model. Our method can for example be applied to the stability analysis of quantum computation and quantum information processing.
- 理論物理学刊行会の論文
- 2003-09-30
著者
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SELIGMAN Thomas
Centro Internacional de Ciencias A.C.
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Prosen T
Physics Department Fmf University Of Ljubljana
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Prosen Tomaz
Physics Department Faculty Of Mathematics And Physics University Of Ljubljana
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Seligman T
Centro De Ciencias Fisicas University Of Mexico (unam)
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ZNIDARIC Marko
Physics Department, FMF, University of Ljubljana
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Znidaric Marko
Physics Department Faculty Of Mathematics And Physics University Of Ljubljana
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SELIGMAN Thomas
Centro de Ciencias Fisicas, University of Mexico (UNAM)
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