Phase Transitions in Disordered Systems
Abstract
We face the problem of phase transitions in diluted systems both from theoretical and numerical sides. We study the effects of quenched site-dilution in classical models (Heisenberg, Ising and Potts) in 2, 3, and 4 dimensions both by using the Renormalization Group and numerical simulations in the canonical and microcanonical ensembles. We propose and check a new formulation of the Finite Size Scaling ansatz (FSS) inside the microcanonical ensemble. We use microcanonical simulations to obtain a clear fist-order behavior for the diluted Potts model in 3D, estimating the tricritical dilution. We perform large-scale simulations of the 3D diluted Heisenberg model, checking its self-averaging properties. Finally we study the 4D diluted Ising model obtaining from the FSS of the specific heat a clear differentiation between the existing conflicting theories. We also compiled a large number of appendix that we expect to be used as future reference.
Cite
@article{arxiv.1004.1579,
title = {Phase Transitions in Disordered Systems},
author = {A. Gordillo-Guerrero},
journal= {arXiv preprint arXiv:1004.1579},
year = {2015}
}
Comments
Ph.D. Thesis (in English), 172 pages, 70 figures.