中文

The classical nucleation rate in two dimensions

统计力学 2009-11-07 v1

摘要

In many systems in condensed matter physics and quantum field theory, first order phase transitions are initiated by the nucleation of bubbles of the stable phase. In homogeneous nucleation theory the nucleation rate Γ\Gamma can be written in the form of the Arrhenius law: Γ=AeHc\Gamma=\mathcal{A} e^{-\mathcal{H}_{c}}. Here Hc\mathcal{H}_{c} is the energy of the critical bubble, and the prefactor A\mathcal{A} can be expressed in terms of the determinant of the operator of fluctuations near the critical bubble state. In general it is not possible to find explicit expressions for A\mathcal{A} and Hc\mathcal{H}_{c}. If the difference η\eta between the energies of the stable and metastable vacua is small, the constant A\mathcal{A} can be determined within the leading approximation in η\eta, which is an extension of the ``thin wall approximation''. We have done this calculation for the case of a model with a real-valued order parameter in two dimensions.

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引用

@article{arxiv.cond-mat/0209201,
  title  = {The classical nucleation rate in two dimensions},
  author = {Gernot Münster and Sergei B. Rutkevich},
  journal= {arXiv preprint arXiv:cond-mat/0209201},
  year   = {2009}
}

备注

14 pages, 3 Postscript figures, LaTeX2e