磁电阻
量子隧道
凝聚态物理
隧道磁电阻
材料科学
双层
巨磁阻
密度泛函理论
电导
形式主义(音乐)
态密度
透射系数
局域态密度
自旋电子学
隧道效应
符号(数学)
隧道枢纽
磁场
传输(电信)
铁合金
电流密度
铁磁性
电子结构
作者
Jing-Jing He,Ling-Xiao Liu,Qin-Yue Cao,Jun-Yi Gu,Yi-Wen Wu,Yuchong Hu,Min Hua,Jia-Ren Yuan,Yan-Dong Guo,Xiao-Hong Yan
摘要
As an indispensable component in magnetic tunnel junction (MTJ) design, the selection and design of barrier materials have attracted extensive research attention. In this study, we construct a Cu/MnBi2Te4/MoSi2N4/MnBi2Te4/Cu MTJ and systematically investigate its spin-dependent electronic transport properties using non-equilibrium Green's function formalism combined with density functional theory. Interestingly, the tunneling magnetoresistance (TMR) undergoes a sign reversal from positive to negative with increasing bias voltage, reaching a remarkable negative TMR of −264%, which shows significant application potential. Through analysis of the transmission spectra, projected local density of states, and comparison with a bilayer h-BN barrier, this unique transport property is attributed to bias-induced barrier tilting, which alters the transmission weights of spin-polarized channels. These findings not only provide insights into resolving read–write path conflicts in magnetoresistive random access memories but also offer guidance for possible experimental exploration of MoSi2N4-based MTJs.
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