Critical Behavior of the Conductivity of Si:P at the Metal-Insulator Transition under Uniaxial Stress

Abstract

We report new measurements of the electrical conductivity sigma of the canonical three-dimensional metal-insulator system Si:P under uniaxial stress S. The zero-temperature extrapolation of sigma(S,T -> 0) ~ - Sc\mu shows an unprecidentedly sharp onset of finite conductivity at Sc with an exponent mu = 1. The value of mu differs significantly from that of earlier stress-tuning results. Our data show dynamical sigma(S,T) scaling on both metallic and insulating sides, viz. sigma(S,T) = sigmac(T) F( - ScTy) where sigmac(T) is the conductivity at the critical stress Sc. We find y = 1/znu = 0.34 where nu is the correlation-length exponent and z the dynamic critical exponent.

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