Abstract
Thermodynamic properties and hysteresis loops of an hexagonal mixed spin-1 and spin-1/2 Ising ferrimagnetic nanowire with alternate layers are studied. Using Monte Carlo simulation techniques, we investigate the effect of both crystal and external longitudinal fields, and interlayer coupling on the critical temperature, total magnetization, susceptibility, specific heat, internal energy and hysteresis loops. The effect of temperature on hysteresis loops is also examined. The obtained results show that the system does not exhibit compensation behavior, the phase diagram present second-order phase transitions and the triple hysteresis behavior appears depending on physical parameters.
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