| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1866769 | Physics Letters A | 2015 | 8 Pages |
•A binary system under a time dependent magnetic field is examined.•Dynamic phase boundaries are plotted in related plane.•Thermodynamic properties are obtained for a wide range of system parameters.•Dynamic hysteresis mechanism is discussed in detail.
By means of Monte Carlo simulation with local spin update Metropolis algorithm, we have elucidated non-equilibrium phase transition properties and stationary-state treatment of a disordered binary ferromagnetic alloy of the type ApB1−pApB1−p on a square lattice. After a detailed analysis, we have found that the system shows many interesting and unusual thermal and magnetic behaviors, for instance, the locations of dynamic phase transition points change significantly depending upon amplitude and period of the external magnetic field as well as upon the active concentration of A-type components. Much effort has also been dedicated to clarify the hysteresis tools, such as coercivity, dynamic loop area as well as dynamic correlations between time dependent magnetizations and external time dependent applied field as a functions of period and amplitude of field as well as active concentration of A-type components, and outstanding physical findings have been reported in order to better understand the dynamic process underlying present system.
