锯齿边和克莱因边硅纳米带金属无磁性和自旋相关塞贝克效应的计算研究

IF 1.5 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

Advances in Condensed Matter Physics Pub Date : 2022-02-12 DOI:10.1155/2022/9969776

X. Tan, Gang Xu, Youchang Jiang, Dahua Ren

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引用次数: 0

摘要

基于低维材料的纳米带是纳米级自旋电子学器件的潜在候选材料。本文构建了具有之字形边缘和克莱因边缘的铁磁性硅纳米带(N-ZKSiNRs)。结果表明，具有不同宽度(N)的N- zksinr被放置在不同的自旋分辨电子环境中。当宽度参数N从4增加到19时，N- zksinrs从间接间隙双极磁性半导体态(BMS)过渡到双极自旋无间隙半导体态(BSGS)，最终过渡到半金属态(HM)。此外，在纳米带中施加温度梯度会产生与自旋方向相反的自旋相关电流，从而证明了自旋相关塞贝克效应(SDSE)。此外，BSGS相在产生SDSE方面优于BMS和HM相。这些发现证实了zksinr是自旋热电子器件的有希望的选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Computational Study of Metal-Free Magnetism and Spin-Dependent Seebeck Effect in Silicene Nanoribbons with Zigzag and Klein Edges

Nanoribbons based on low-dimensional materials are potential candidates for nanoscale spintronics devices. Here, some ferromagnetic silicene nanoribbons with zigzag and Klein edges (N-ZKSiNRs) are constructed. It is demonstrated that the N-ZKSiNRs with various widths (N) are placed in various spin-resolved electronic situations. With the increase of the width parameter N from 4 to 19, the N-ZKSiNRs pass from the indirect-gap bipolar magnetic semiconducting state (BMS) to the bipolar spin-gapless semiconductor (BSGS) and eventually to half-metallicity (HM). Moreover, applying a temperature gradient through the nanoribbons leads to spin-dependent current with the opposite flowing and spin orientations, demonstrating the spin-dependent Seebeck effect (SDSE). Besides, it was found that the BSGS phase is superior to the BMS and HM for generating SDSE. These findings confirm that the ZKSiNRs are promising choices for spin caloritronics devices.

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来源期刊

Advances in Condensed Matter Physics PHYSICS, CONDENSED MATTER-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Advances in Condensed Matter Physics publishes articles on the experimental and theoretical study of the physics of materials in solid, liquid, amorphous, and exotic states. Papers consider the quantum, classical, and statistical mechanics of materials; their structure, dynamics, and phase transitions; and their magnetic, electronic, thermal, and optical properties. Submission of original research, and focused review articles, is welcomed from researchers from across the entire condensed matter physics community.