Dynamic magnetic features of a mixed ferro-ferrimagnetic ternary alloy in the form of AB$_p$C$_{1-p}$
Mehmet Bati, Mehmet Erta\c{s}

TL;DR
This study investigates the dynamic magnetic properties of a mixed ferro-ferrimagnetic ternary alloy AB$_p$C$_{1-p}$ using mean-field approximation and Glauber dynamics, highlighting how the critical temperature depends on alloy composition.
Contribution
It introduces a simulation of the dynamic magnetic features of AB$_p$C$_{1-p}$ alloys considering Hamiltonian parameters and concentration effects, which is a novel approach.
Findings
Critical temperature depends on alloy concentration.
Dynamic magnetic features are influenced by Hamiltonian parameters.
Simulation results show the relationship between composition and magnetic behavior.
Abstract
Dynamic magnetic features of a mixed ferro-ferrimagnetic ternary alloy in the form of ABC, especially. The effect of Hamiltonian parameters on the dynamic magnetic features of the system are investigated. For this aim, an ABC ternary alloy system was simulated within the mean-field approximation based on a Glauber type stochastic dynamic and for simplicity, A, B and C ions as SA = 1/2, SB = 1 and SC = 3/2, were chosen respectively. It was found that in our dynamic system the critical temperature was always dependent on the concentration ratio of the ternary alloy.
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Taxonomy
TopicsTheoretical and Computational Physics · Complex Systems and Time Series Analysis
