二乙烯基分子器件的热自旋输运性质

IF 1.5 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER Advances in Condensed Matter Physics Pub Date : 2022-09-22 DOI:10.1155/2022/2149190

Gang Xu, X. Tan, Dahua Ren

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引用次数: 1

摘要

自旋热电子器件作为集自旋电子学和热电子学于一体的多功能器件，对人类的可持续发展至关重要。本文提出了一种新型的自旋热电子器件，将二乙烯分子光开关夹在含有不对称边缘加氢电极的半无限之字形石墨烯纳米带之间。我们证明了左右电极之间的温度梯度可以产生相反方向的自旋向上(SU)和自旋向下(SD)电流。此外，上述电流具有大致相同的大小，表明几乎非耗散自旋塞贝克效应。我们还发现，在不同的温度梯度下，两种光致变色异构体的电流明显不同，证明了该系统的优良开关性质。结果表明，光可以控制热自旋输运性质。

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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Thermal Spin Transport Properties in Diarylethene-Based Molecule Devices

Spin caloritronic devices, as multifunctional devices, combining spintronics, and caloritronics, are essential for the sustainable development of humans. Here, a novel spin caloritronic device is presented using a diarylethene molecule photoswitch sandwiched among two semi-infinite zigzag graphene nanoribbons containing asymmetrical edge hydrogenation electrodes. We demonstrate that the temperature gradient between the right and the left electrodes can generate spin-up (SU) and spin-down (SD) currents moving in opposite orientations. Moreover, the mentioned currents possess approximately the same magnitudes, indicating a nearly nondissipative spin Seebeck effect. We also find that these currents are significantly dissimilar for the two photochromic isomers at different temperature gradients, demonstrating the excellent system’s switching nature. The obtained results reveal that the light can control the thermal spin transport properties.

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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.