IPM

“ Schools ”

“ Centers and Units ”

“ Research Groups ”

“ Useful Links ”

“ E-Services ”

“School of Physic”

Paper IPM / Physic / 15026

School of Physics

Title:

Ground-state magnetization of the Ising spin glass: A recursive numerical method and Chen-Ma scaling

Author(s):

1 .	R. Sepehrinia
2 .	R. Chalangari

Status:

Published

Journal:

Phys. Rev. B

Vol.:

Year:

2018

Pages:

104201

Supported by:

IPM

Abstract:

The ground-state properties of quasi-one-dimensional (Q1D) Ising spin glass are investigated using an exact numerical approach and analytical arguments. A set of coupled recursive equations for the ground-state energy are introduced and solved numerically. For various types of coupling distribution, we obtain accurate results for magnetization, particularly in the presence of a weak external magnetic field. We show that in the weak magnetic field limit, similar to the 1D model, magnetization exhibits a singular power-law behavior with divergent susceptibility. Remarkably, the spectrum of magnetic exponents is markedly different from that of the 1D system even in the case of two coupled chains. The magnetic exponent makes a crossover from being dependent on a distribution function to a constant value independent of distribution. We provide an analytic theory for these observations by extending the Chen-Ma argument to the Q1D case. We derive an analytical formula for the exponent which is in perfect agreement with the numerical results.

Download TeX format