Shahla Hosseinzadeh Helaleh, Mohammad Alipourzadeh, Yaser Hajati
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引用次数: 0
摘要
我们从理论上研究了在非共振圆偏振光和栅极电压的影响下,基于过渡金属二钙化物(TMDs)的正常/反铁磁/正常(N/AF/N)结内的自旋和谷极化传输。反铁磁性可以调节自旋态和有效间隙,减少一种态的自旋间隙,同时增加另一种态的自旋间隙,从而产生广泛的自旋极化和可控间隙。非共振圆偏振光可调节谷自由度和有效间隙,从而提供广泛的谷偏振。利用 TMD 中的强自旋轨道耦合,通过 AF 和/或非共振光操纵,可在广泛的费米能范围内实现拟议结中的完美自旋-山谷极化。在较低的光能下,AF 操纵可有效缩小 TMD 的带隙,从而增强了拟议结在自旋谷过滤方面的潜在应用。
Photo- and exchange-field controlled spin and valley polarized transport in a normal/antiferromagnetic/normal (N/AF/N) junction based on transition metal dichalcogenides
We theoretically investigate spin- and valley-polarized transport within a normal/antiferromagnetic/normal (N/AF/N) junction based on transition metal dichalcogenides (TMDs), under the influence of off-resonance circularly polarized light and gate voltage. Antiferromagnetism modulates spin states and the effective gap, reducing the spin gap for one state while increasing it for the opposite, resulting in a broad spin polarization and a controlled gap. Off-resonance circularly polarized light adjusts the valley degree of freedom and the effective gap, providing a wide range of valley polarization. Harnessing the strong spin–orbit coupling in TMDs enables perfect spin-valley polarization in the proposed junction across a wide range of Fermi energies through AF and/or off-resonance light manipulation. AF manipulation effectively narrows the band gap of TMDs at lower light energies, enhancing potential applications of the proposed junction for spin-valley filtering.
期刊介绍:
This journal is concerned with all aspects of applied physics research, from biophysics, magnetism, plasmas and semiconductors to the structure and properties of matter.