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Phase transition without long-range order in two dimensions

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Abstract

As a contribution to the problem of sharp phase transitions in such two-dimensional systems for which the absence of long-range order at any finite temperature has been proved, we have investigated the structure function of a harmonic crystal, the conductivity of a two-dimensional superconductor and the magnetic susceptibility for a planar ferromagnet. We use only approximations that satisfy the conditio of no long-range order and find that this does not exclude qualitative differences between a quasiordered low temperature phase and a usual disordered high temperature phase. The Bragg scattering peaks of a crystal turn out to be only slightly weakened as compared to the usual δ-function spikes of the structure function. In the frame of the Ginzburg-Landau theory the conductivity of a two-dimensional superconductor exhibits a δ-function singularity at zero frequency that has the same strength as that in the three-dimensional case. Thus we conclude that the absence of long-range order is not sufficient to exclude phase transitions in two-dimensional systems. Finally criteria for two-dimensional behavior of thin slabs of superconducting material are discussed.

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Authors and Affiliations

  1. Institut Max von Laure-Paul Langevin Garching bei München, Germany

    Hans-Jürgen Mikeska

  2. Physik-Department der Technischen Hochschule München, München, Germany

    Hartwig Schmidt

Authors
  1. Hans-Jürgen Mikeska
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  2. Hartwig Schmidt
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Mikeska, HJ., Schmidt, H. Phase transition without long-range order in two dimensions. J Low Temp Phys 2, 371–381 (1970). https://doi.org/10.1007/BF00652508

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  • DOI: https://doi.org/10.1007/BF00652508

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