A New Disorder Driven Roughening Transition of CDW's and Flux Line Lattices
arXiv:cond-mat/9708116 · doi:10.1103/PhysRevLett.79.5090
Abstract
We study the competition between pinning of a charge density wave (CDW) by random distributed impurities and a periodic potential of the underlying crystal lattice. In d=3 dimensions, we find for commensurate phases of order p>p_c\approx 6/Ïa disorder driven continuous roughening transition from a 'flat' phase with translational long range order to a 'rough' glassy phase with quasi long range order. Critical exponents are calculated in a double expansion in μ=p^2/p_c^2-1 and ε=4-d and fulfill the scaling relations of random field models. Implications for flux line lattices in high temperature superconductors are briefly discussed.
4 pages, RevTeX, 1 postscript figure