Dipolar and Quadrupolar Hysteresis in Core-Surface Magnetic Nanoparticles
Citation
Özüm, S., Yalçın, O., Erdem, R. (2019). Dipolar and Quadrupolar Hysteresis in Core-Surface Magnetic Nanoparticles. 6th Internatıonal conference on materials science and nanotechnology for next generation (MSNG2019), October 16-18, 2019, Niğde, Turkey.Abstract
Blume-Emery-Griffiths (BEG) model [1] is used to investigate the hysteretic behaviour of dipole (M) and quadrupole ordering (Q) properties peculiar to core/surface (C/S) type hexagonal Ising nanoparticles (HINPs) [2-3]. The bond energy parameters ( ij ) and bond variables ( Pij ) are computed using the BEG Hamiltonian for HINPs. Dipole and quadrupole order parameters are calculated from numerical solutions of Pij . It has also been shown that the dipole order parameter as a function magnetic field (M-h) and quadrupole order parameter as a function single-ion isotropy parameter (Q-D) has ‘‘hysteresis’’ character which is generally called quadrupole hysteresis (QD). Shifted QD loops with an asymmetry are observed in the increasing of K and magnetic field (h) values one by one. The observed M˗h hysteresis loops depend on T and D values while Q˗D hysteresis loops depend on T and h values. These are also discussed in relation with the experimental and theoretical findings [4, 5].
Source
6th Internatıonal conference on materials science and nanotechnology for next generation (MSNG2019)Collections
- Bildiri Koleksiyonu [18]