2014
DOI: 10.1016/j.physa.2013.10.013
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Ferrimagnetism in the Heisenberg–Ising bilayer with magnetically non-equivalent planes

Abstract: The Pair Approximation method is applied to the antiferromagnetic Heisenberg-Ising spin-1/2 bilayer with a simple cubic crystalline structure. The method allows for self-consistent calculations of thermodynamic quantities, based on the determination of Gibbs free-energy. In the paper the phase diagrams and planar magnetizations are calculated for the system in question. Special attention is paid to the case of magnetically non-equivalent planes, one of which is additionally randomly diluted. The occurrence of … Show more

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Cited by 24 publications
(50 citation statements)
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“…These diagrams show that, in both trilayer types, there is always a compensation temperature for a sufficiently small J AA /J BB irrespective of the value of J AB /J BB , although the range of values of J AA /J BB for which the phenomenon occurs increases as the A-B interplanar coupling gets weaker. This behavior is consistent for MC, EFA, and MFA approaches and similar to what is reported for the diluted bilayer [41,45] and multilayer [47,49] systems for sufficiently small dilutions.…”
Section: Phase Diagramssupporting
confidence: 88%
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“…These diagrams show that, in both trilayer types, there is always a compensation temperature for a sufficiently small J AA /J BB irrespective of the value of J AB /J BB , although the range of values of J AA /J BB for which the phenomenon occurs increases as the A-B interplanar coupling gets weaker. This behavior is consistent for MC, EFA, and MFA approaches and similar to what is reported for the diluted bilayer [41,45] and multilayer [47,49] systems for sufficiently small dilutions.…”
Section: Phase Diagramssupporting
confidence: 88%
“…53. We see the same behavior when we contrast the PA [45] and MC [41] results for the Ising bilayer, in which case the smaller area is also obtained through Monte Carlo simulations, i.e., the area seems to decrease as we use more accurate approximations. Thus, we expect that if the pair approximation were applied to the trilayer systems, the line separating the phases with and without compensation would fall in between the dashed (EFA) and solid (MC) lines in both Figs.…”
Section: Phase Diagramssupporting
confidence: 73%
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“…Research on magnetic bilayers has received much interest both from the experimental and theoretical point of view in recent years [1][2][3][4][5][6][7][8][9][10]. Experimentally, several works have been published on the properties of the magnetic bilayer such as FePt/Fe [11], FM/TbFe (FM=Fe, Py-permalloy, FeCo) [12], SiGe, SiC and GeC [13], Ni/Au [14], Fe/Ni and Fe/Co [15].…”
Section: Introductionmentioning
confidence: 99%