Low‐temperature properties of a magnetic nanowire

Abstract: The cylindrical core–shell nanowire with an antiferromagnetic core and a ferromagnetic core described by the quantum Heisenberg spin model are studied by using linear spin‐wave theory and Green's function method. Considering the different symmetry of spins, we introduce two different Fourier transforms to spin‐deviate operators. We give the spectrum of the system, analyze the quantum fluctuations of spins at zero temperature, and discuss the low‐temperature behavior of the sublattice magnetization, internal en… Show more

“…Due to the simplicity and practicality of Ising models, core-shell nanowires have the particularity of being represented by various single-and mixed-spin Ising systems and that can be solved approximately or numerically allowing comparison with experiment. Recently, several methods have been applied to the examination of these systems, such as effective field theory (EFT), [19][20][21] mean field theory (MFT), [22][23][24] Green's function method, [25] and Monte Carlo simulation (MCS). [24,[26][27][28][29] These studies are of great significance not only for the theoretical study of ferrimagnetic nanowires but also for experimental and practical applications.…”

Single‐Ion Anisotropy Effect on the Critical and Hysteresis Behaviors of a Mixed‐Spin (1, 3/2) Square Ising Nanowire

“…Due to the simplicity and practicality of Ising models, core-shell nanowires have the particularity of being represented by various single-and mixed-spin Ising systems and that can be solved approximately or numerically allowing comparison with experiment. Recently, several methods have been applied to the examination of these systems, such as effective field theory (EFT), [19][20][21] mean field theory (MFT), [22][23][24] Green's function method, [25] and Monte Carlo simulation (MCS). [24,[26][27][28][29] These studies are of great significance not only for the theoretical study of ferrimagnetic nanowires but also for experimental and practical applications.…”

Single‐Ion Anisotropy Effect on the Critical and Hysteresis Behaviors of a Mixed‐Spin (1, 3/2) Square Ising Nanowire

Critical behavior in a core-multi shell mixed-spin (½, 1, ½, 1) nanowire

Switching of magnetic bilayer nanotube ring with antiferromagnetically coupled layers in an annular field