MAGNETIC PROPERTIES OF MIXED SPIN (1, 2) HEXAGONAL ISING NANOWIRE SYSTEM

Year 2016, Volume: 12 Issue: 2, 22 - 22, 01.08.2016

Mehmet Ertaş Mustafa Keskin

Abstract

Magnetic nanowire systems have attracted considerable attention not only because of their
academic interest, but also due to the technological applications; in particular, in the areas of
magnetic recording media, spin electronics, optics, sensors and thermo electronics devices. On the
other hand, in the last two decades, mixed spin Ising systems have been intensively studied. The
reasons are as follows: (i) the systems have less translational symmetry than their single spin
counterparts. (ii) The study of these systems can be relevant for understanding the bimetallic
molecular system-based magnetic materials. (iii) Mixed spin Ising systems provide good models to
investigate the ferromagnetic materials. In this work, by utilizing the framework of the effective field
theory with correlation, magnetic properties of mixed spin (1, 2) hexagonal Ising nanowire system is
studied in detail. The effects of Hamiltonian parameters on hysteresis and compensation behaviors
are also discussed extensively. Finally, the results are compared with some experimental and
theoretical works and found in a qualitatively good agreement.

Keywords

Mixed spin (1, 2) hexagonal Ising nanowire, the effective field theory, hysteresis and compensation