Critical exponents at the superconductor-insulator transition in dirty-boson systems
Abstract
I obtain the inverse of the correlation length exponent at the superfluid-Bose glass quantum critical point as a series in small parameter d-1, with d being the dimensionality of the system, and compute the first two terms using a novel field-theoretic technique. For d=2 I find s = 0.81 and c = 1.03, for short-range and Coulomb interactions between bosons, respectively. When combined with the exact values of the dynamical critical exponents zs = d and zc = 1, these results are in quantitative agreement with the experiments on onset of superfluidity in 4 He in porous glasses, and on superconductor-insulator transition in homogeneous metallic films, in support of the dirty-boson theory fot the latter. Higher-order calculation of the exponents and of the universal conductivity is discussed.
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