Regression Relation for Pure Quantum States and Its Implications for Efficient Computing

Tarek A. Elsayed and Boris V. Fine
Phys. Rev. Lett. 110, 070404 – Published 15 February 2013
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Abstract

We obtain a modified version of the Onsager regression relation for the expectation values of quantum-mechanical operators in pure quantum states of isolated many-body quantum systems. We use the insights gained from this relation to show that high-temperature time correlation functions in many-body quantum systems can be controllably computed without complete diagonalization of the Hamiltonians, using instead the direct integration of the Schrödinger equation for randomly sampled pure states. This method is also applicable to quantum quenches and other situations describable by time-dependent many-body Hamiltonians. The method implies exponential reduction of the computer memory requirement in comparison with the complete diagonalization. We illustrate the method by numerically computing infinite-temperature correlation functions for translationally invariant Heisenberg chains of up to 29 spins 1/2. Thereby, we also test the spin diffusion hypothesis and find it in a satisfactory agreement with the numerical results. Both the derivation of the modified regression relation and the justification of the computational method are based on the notion of quantum typicality.

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  • Received 28 August 2012

DOI:https://doi.org/10.1103/PhysRevLett.110.070404

© 2013 American Physical Society

Authors & Affiliations

Tarek A. Elsayed*

  • Institute for Theoretical Physics, University of Heidelberg, Philosophenweg 19, 69120 Heidelberg, Germany and Electronics Research Institute, Dokki, Giza 12622, Egypt

Boris V. Fine

  • Institute for Theoretical Physics, University of Heidelberg, Philosophenweg 19, 69120 Heidelberg, Germany

  • *T.Elsayed@thphys.uni-heidelberg.de
  • B.Fine@thphys.uni-heidelberg.de

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Issue

Vol. 110, Iss. 7 — 15 February 2013

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