Open AccessDisordered kagomé spin ice
Author(s) -
Noah Greenberg,
Andrew Kunz
Publication year - 2018
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.5007156
Subject(s) - spin ice , condensed matter physics , frustration , residual entropy , degenerate energy levels , physics , monte carlo method , magnetic refrigeration , ground state , materials science , magnetic field , statistical physics , quantum mechanics , configuration entropy , magnetization , magnetic monopole , statistics , mathematics
Artificial spin ice is made from a large array of patterned magnetic nanoislands designed to mimic naturally occurring spin ice materials. The geometrical arrangement of the kagome lattice guarantees a frustrated arrangement of the islands’ magnetic moments at each vertex where the three magnetic nanoislands meet. This frustration leads to a highly degenerate ground state which gives rise to a finite (residual) entropy at zero temperature. In this work we use the Monte Carlo simulation to explore the effects of disorder in kagome spin ice. Disorder is introduced to the system by randomly removing a known percentage of magnetic islands from the lattice. The behavior of the spin ice changes as the disorder increases; evident by changes to the shape and locations of the peaks in heat capacity and the residual entropy. The results are consistent with observations made in diluted physical spin ice materials.
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