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Bibliographic Details
Main Authors: Vedula, Bharadwaj, Moore, M. A., Sharma, Auditya
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.19069
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Table of Contents:
  • We have studied the diluted Heisenberg spin glass model in a 3-component random field for the commonly-used one-dimensional long-range model where the probability that two spins separated by a distance $r$ interact with one another falls as $1/r^{2 σ}$, for two values of $σ$, $0.75$ and $0.85$. No de Almeida-Thouless line is expected at these $σ$ values. The spin glass correlation length $ξ_{\text{SG}}$ varies with the random field as expected from the Imry-Ma argument and the droplet scaling picture of spin glasses. However, when $ξ_{\text{SG}}$ becomes comparable to the system size $L$, there are departures which we attribute to the features deriving from the TNT picture of spin glasses. For the case $σ=0.85$ these features go away for system sizes with $L >L^*$, where $L^*$ is large ($\approx 4000-8000$ lattice spacings). In the case of $σ= 0.75$ we have been unable to study large enough systems to determine its value of $L^*$. We sketch a renormalization group scenario to explain how these features could arise. On this scenario finite size effects on the droplet scaling picture in low-dimensional spin glasses produce TNT features and some aspects of Parisi's replica symmetry breaking theory of the Sherrington-Kirkpatrick model.