• Title of article

    Self-duality and phase structure of the 4D random-plaquette image gauge model Original Research Article

  • Author/Authors

    Gaku Arakawa، نويسنده , , Ikuo Ichinose، نويسنده , , Tetsuo Matsui، نويسنده , , Koujin Takeda، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    11
  • From page
    296
  • To page
    306
  • Abstract
    In the present paper, we shall study the 4-dimensional image lattice gauge model with a random gauge coupling; the random-plaquette gauge model (RPGM). The random gauge coupling at each plaquette takes the value J with the probability image and −J with p. This model exhibits a confinement-Higgs phase transition. We numerically obtain a phase boundary curve in the image-plane where T is the “temperature” measured in unit of image. This model plays an important role in estimating the accuracy threshold of a quantum memory of a toric code. In this paper, we are mainly interested in its “self-duality” aspect, and the relationship with the random-bond Ising model (RBIM) in 2-dimensions. The “self-duality” argument can be applied both for RPGM and RBIM, giving the same duality equations, hence predicting the same phase boundary. The phase boundary curve obtained by our numerical simulation almost coincides with this predicted phase boundary at the high-temperature region. The phase transition is of first order for relatively small values of image, but becomes of second order for larger p. The value of p at the intersection of the phase boundary curve and the Nishimori line is regarded as the accuracy threshold of errors in a toric quantum memory. It is estimated as image, which is very close to the value conjectured by Takeda and Nishimori through the “self-duality” argument.
  • Journal title
    Nuclear Physics B
  • Serial Year
    2005
  • Journal title
    Nuclear Physics B
  • Record number

    874409