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A comparison of projection operator formalisms for the study of self-diffusion

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Abstract

The utility of projection operator formalisms for describing the dynamics of many-body systems is studied, and the compatibility of these formalisms with certain approximation schemes is evaluated in the light of known behavior of such systems. For simplicity the investigation is limited to the study of Brownian motion. Specifically, a memory kernel formalism and a kinetic equation formalism are compared for the calculation of the time evolution of the momentum autocorrelation function. Both perturbation expansions and averaged propagator approximations are investigated. The results from these studies suggest that the long-time behavior of the momentum autocorrelation function is sensitive to the long-range nature of the interparticle potential.

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Author notes

  1. R. D. Mosteller

    Present address: Department of Nuclear Science and Engineering, The Catholic University of America, Washington, D.C.

Authors and Affiliations

  1. Department of Nuclear Engineering, The University of Michigan, Ann Arbor, Michigan

    R. D. Mosteller & J. J. Duderstadt

Authors
  1. R. D. Mosteller
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  2. J. J. Duderstadt
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Additional information

This work was supported in part by the National Science Foundation under Grant GK-19360X.

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Mosteller, R.D., Duderstadt, J.J. A comparison of projection operator formalisms for the study of self-diffusion. J Stat Phys 9, 197–213 (1973). https://doi.org/10.1007/BF01008728

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