Non-conventional Superconductors and diluted Ising Model
Xuan Zhong Ni
TL;DR
This paper links Monte Carlo simulations of a diluted 2D Ising antiferromagnet to the phase diagram of non-conventional superconductors, revealing a defined energy gap and a transition towards quasi-crystal structures at low temperatures.
Contribution
It establishes a novel correspondence between diluted Ising models and non-conventional superconductor phase diagrams, including structural and energy gap insights.
Findings
Simulation results match superconductor phase diagrams.
Energy gap is explicitly defined for the system.
Lattice size increase leads to quasi-crystal-like structures.
Abstract
This paper demonstrates that the results of a Monte Carlo simulation of a diluted 2D Ising antiferromagnetic system corresponds with the phase diagram for non conventional superconductors. An energy gap of this system is defined. We also find a strange phenomenon that when the lattice size of simulation increased the crystal structure becomes more like quasi crystal at the low temperature.
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Taxonomy
TopicsTheoretical and Computational Physics · Statistical Mechanics and Entropy · Opinion Dynamics and Social Influence