Dynamical thermal dependences of the total magnetization and dynamic magnetic hysteresis properties of Ising bilayer system with square lattice

Employing effective-field theory based on Glauber-type stochastic dynamic, the dynamical thermal dependences of the total magnetization and dynamic magnetic hysteresis properties of spin-1/2 Ising bilayer system (IBS) with square lattice are investigated in detail. The effects of the Hamiltonian parameters on the dynamical thermal dependences of the total magnetization and dynamic magnetic hysteresis properties are widely examined and found that strongly depend on the Hamiltonian parameters. The IBS with square lattice shows the L-, P-, R-, S- and Q-type thermal dependences of the dynamical total magnetization. Furthermore, when the dynamic hysteresis behaviors of the IBS are investigated, single and triple hysteresis loop areas are obtained for various values of the Hamiltonian parameters.