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Dispersion Relations for the Multivelocity Acoustic Peierls Equations and Some Properties of the Scalar Acoustic Peierls Potential. I

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Abstract

Under consideration are the questions of mathematical justification and development of a diffusive-wave model for sound propagation in a homogeneous Maxwellian gas. The following results are obtained: The symbols of the convolution kernels of multivelocity acoustic Peierls equations are calculated by means of special functions, and dispersion relations are written down for them. The absence of three-dimensional real leaves of solutions is established for a scalar dispersion relation. The asymptotics at infinity is calculated for a scalar monochromatic Peierls potential, and uniqueness is established for a solution to the inverse potential problem for it in the class of all compactly-supported distributions. The article is split into two parts and comprises three sections. Part I, comprising § 1, contains the statements of all main results of the article.

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References

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Authors and Affiliations

  1. The Sobolev Institute of Mathematics, Novosibirsk

    V. R. Kireitov

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  1. V. R. Kireitov
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Kireitov, V.R. Dispersion Relations for the Multivelocity Acoustic Peierls Equations and Some Properties of the Scalar Acoustic Peierls Potential. I. Siberian Mathematical Journal 42, 648–655 (2001). https://doi.org/10.1023/A:1010437212978

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  • DOI: https://doi.org/10.1023/A:1010437212978

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