Effects of a Perpendicular Magnetic Field in the Dipolar Heisenberg Model with Dominant Exchange Interaction
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Date
2011-05-04
Authors
Abdel-Rahman Abu Labdeh
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Abstract
<p>The effects of a uniform magnetic field on the phase diagram of the dipolar Heisenberg model with a dominantantiferromagnetic exchange interaction have been investigated.The model consists of a square lattice of classical spin vectors, where the spins interact through an antiferromagneticexchange interaction of strength J, a magnetic surface anisotropy of strength k, a dipole-dipole interaction ofstrength g and couple to an applied field of strength H. In this study the applied field is assumed to be perpendicularto the plane of the lattice. From extensive Monte Carlo simulations, representative magnetic phase diagrams havebeen determined as a function of the ratio's k, and T/g, where T is temperature, and at three different ratios of H/g(H/g=10,~20,~27). These results are compared to the previously investigated case of H/g=0 and to analyticcalculations for the ground state energies. The nature of the equilibrium phases and order of the phase boundariesseparating them are considered and changes due to the strength of the applied field are highlighted.</p>
<p>The effects of a uniform magnetic field on the phase diagram of the dipolar Heisenberg model with a dominantantiferromagnetic exchange interaction have been investigated.The model consists of a square lattice of classical spin vectors, where the spins interact through an antiferromagneticexchange interaction of strength J, a magnetic surface anisotropy of strength k, a dipole-dipole interaction ofstrength g and couple to an applied field of strength H. In this study the applied field is assumed to be perpendicularto the plane of the lattice. From extensive Monte Carlo simulations, representative magnetic phase diagrams havebeen determined as a function of the ratio's k, and T/g, where T is temperature, and at three different ratios of H/g(H/g=10,~20,~27). These results are compared to the previously investigated case of H/g=0 and to analyticcalculations for the ground state energies. The nature of the equilibrium phases and order of the phase boundariesseparating them are considered and changes due to the strength of the applied field are highlighted.</p>
<p>The effects of a uniform magnetic field on the phase diagram of the dipolar Heisenberg model with a dominantantiferromagnetic exchange interaction have been investigated.The model consists of a square lattice of classical spin vectors, where the spins interact through an antiferromagneticexchange interaction of strength J, a magnetic surface anisotropy of strength k, a dipole-dipole interaction ofstrength g and couple to an applied field of strength H. In this study the applied field is assumed to be perpendicularto the plane of the lattice. From extensive Monte Carlo simulations, representative magnetic phase diagrams havebeen determined as a function of the ratio's k, and T/g, where T is temperature, and at three different ratios of H/g(H/g=10,~20,~27). These results are compared to the previously investigated case of H/g=0 and to analyticcalculations for the ground state energies. The nature of the equilibrium phases and order of the phase boundariesseparating them are considered and changes due to the strength of the applied field are highlighted.</p>