Affiliation: | 1.NanoDevice Simulation Lab, ETCE Department, Jadavpur University, Kolkata, 700032, India ;2.School of VLSI Technology, IIEST, Shibpur, India ; |
Abstract: | The paper presents an ab initio study of the 2-D insulators and their effect on the performance of a magnetic tunnel junction memory (MTJ) device. MTJ devices has been considered as an alternate to the charge based data storage cells due to its spin-polarised operation and high scaling probability. The use of 2-D insulators like X-(OH)2 (X: Ca and Mg) and h-BN (hexagonal-Boron Nitride) in such device would be interesting. The authors have calculated the band structures, density of states and effective mass of electrons and holes for the mono-layer of these three non-conventional 2-D insulators using the first principle calculations in density functional theory framework using Quantumwise ATK tool. The ab initio calculation yielded band gap (Eg) of 4.633, 4.685 and 4.249 eV for h-BN, Ca(OH)2 and Mg(OH)2, respectively. The effective mass of electrons was calculated as 0.621, 0.604 and 0.478 for single layer h-BN, Ca(OH)2 and Mg(OH)2, respectively. While for holes it is 0.834, 0.446 and 0.407, respectively for h-BN, Ca(OH)2 and Mg(OH)2. The MTJ device properties as tunneling-magneto resistance, differential TMR, parallel and anti-parallel resistance, differential resistance and spin transfer torque components (in-plane and out-of-plane) with these materials as composite dielectric has been reported in this paper using MTJ Lab tool. The performance of MTJ memory device with h-BN based composite dielectric is found better. |