Compensation behaviors and magnetic properties of an ising-type bilayer graphyne nanoribbon

Abstract

In this work, we employ Monte Carlo method to examine the compensation behaviors and magnetic properties of an Ising-type bilayer graphyne nanoribbon. Consideration is given to how the magnetic characteristics of the system are affected by the length of the graphyne nanoribbon and the number of Monte Carlo steps. The influence of different parameters such as exchange coupling, crystal field, temperature and external magnetic field on the studied system are investigated. It is presented that the system can show the interesting behaviors such as double compensation points and multi-loop hysteresis behaviors under certain parameters. These may offer theoretical reference for multi-state magnetic recording.