Monte Carlo study of the superfluid weight in doped antiferromagnets

Abstract

The phase fluctuations of the condensate in doped antiferromagnets, described by a t-t'-J model and a suitable 1/N expansion, provide a mechanism for a Kosterlitz-Thouless (KT) type of transition to a superconducting state below Tc. In this paper, we present a Monte Carlo study of the corresponding superfluid weight Ds(T) in the classical (large-N) limit, as a function of temperature and doping. Consistent with generic experimental trends, Ds(T) exhibits a T-linear decrease at low temperatures, with the magnitude of the slope Ds'(0) increasing upon doping. Finite-size scaling in the underdoped regime predicts values for the dimensionless ratio A=kBTc/Ds(0) of order unity, with A=0.4435(5) in the half-filled-band limit, thus confirming Ds(0) as the fundamental energy scale determining Tc. Our Monte Carlo results for Ds(T)/Ds(0) vs kBT/Ds(0), at 10% hole doping, are found to be in reasonable agreement with recent measurements on La2-xSrxCuO4, with x=0.10, throughout the temperature range below the theoretical KT transition temperature Tc.

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