Magnetic-glassy multicritical behavior of the three-dimensional +- J Ising model

Abstract

We consider the three-dimensional J model defined on a simple cubic lattice and study its behavior close to the multicritical Nishimori point where the paramagnetic-ferromagnetic, the paramagnetic-glassy, and the ferromagnetic-glassy transition lines meet in the T-p phase diagram (p characterizes the disorder distribution and gives the fraction of ferromagnetic bonds). For this purpose we perform Monte Carlo simulations on cubic lattices of size L 32 and a finite-size scaling analysis of the numerical results. The magnetic-glassy multicritical point is found at p*=0.76820(4), along the Nishimori line given by 2p-1= Tanh(J/T). We determine the renormalization-group dimensions of the operators that control the renormalization-group flow close to the multicritical point, y1 = 1.02(5), y2 = 0.61(2), and the susceptibility exponent η = -0.114(3). The temperature and crossover exponents are =1/y2=1.64(5) and φ=y1/y2 = 1.67(10), respectively. We also investigate the model-A dynamics, obtaining the dynamic critical exponent z = 5.0(5).