Theoretical estimates of the critical exponents of the superfluid transition in 4He by lattice methods

We improve the theoretical estimates of the critical exponents for the three-dimensional XY universality class that apply to the superfluid transition in He-4 along the lambda line of its phase diagram. We obtain the estimates alpha=-0.0151(3), nu=0.6717(1), eta=0.0381(2), gamma=1.3178(2), beta=0.3486(1), and delta=4.780(1). Our results are obtained by finite-size scaling analyses of high-statistics Monte Carlo simulations up to lattice size L=128 and resummations of 22nd-order high-temperature expansions of two improved models with suppressed leading scaling corrections. We note that our result for the specific-heat exponent alpha disagrees with the most recent experimental estimate alpha=-0.0127(3) at the superfluid transition of He-4 in a microgravity environment.