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Autori principali: Yasinskaya, D. N., Panov, Y. D.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.11319
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author Yasinskaya, D. N.
Panov, Y. D.
author_facet Yasinskaya, D. N.
Panov, Y. D.
contents We analyze frustrated states of the one-dimensional dilute Ising chain with charged interacting impurities of two types with mapping of the system to some Markov chain. We perform classification and reveal two types of Markov chains: periodic with period 2 and aperiodic. Frustrated phases with various types of chains have different properties. In phases with periodic Markov chains, long-range order is observed in the sublattice while another sublattice remains disordered. This results in a conjunction of the non-zero residual entropy and the infinite correlation length. In frustrated phases with aperiodic chains, there is no long-range order, and the correlation length remains finite. It is shown that under the magnetic field the most significant change in the spin chain structure corresponds to the change of the Markov chain type.
format Preprint
id arxiv_https___arxiv_org_abs_2411_11319
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Markov chains for the analysis of states of one-dimensional spin systems
Yasinskaya, D. N.
Panov, Y. D.
Statistical Mechanics
We analyze frustrated states of the one-dimensional dilute Ising chain with charged interacting impurities of two types with mapping of the system to some Markov chain. We perform classification and reveal two types of Markov chains: periodic with period 2 and aperiodic. Frustrated phases with various types of chains have different properties. In phases with periodic Markov chains, long-range order is observed in the sublattice while another sublattice remains disordered. This results in a conjunction of the non-zero residual entropy and the infinite correlation length. In frustrated phases with aperiodic chains, there is no long-range order, and the correlation length remains finite. It is shown that under the magnetic field the most significant change in the spin chain structure corresponds to the change of the Markov chain type.
title Markov chains for the analysis of states of one-dimensional spin systems
topic Statistical Mechanics
url https://arxiv.org/abs/2411.11319