Optimum design of a nanoscale spin-Seebeck power device

Liao Tianjun; Lin Jian; Su GuozhenLin BihongChen Jincan

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Optimum design of a nanoscale spin-Seebeck power device

机译：优化设计的纳米级spin-Seebeck权力设备

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摘要

A theoretical model of a nanoscale spin-Seebeck power device (SSPD) is proposed based on the longitudinal spin-Seebeck effect in bilayers made of a ferromagnetic insulator and a normal metal. Expressions for the power output and thermal efficiency of the SSPD are derived analytically. The performance characteristics of the nanoscale SSPD are analyzed using numerical simulation. The maximum power output density and efficiency are calculated numerically. The effect of the spin Hall angle on the performance characteristics of the SSPD is analyzed. The choice of materials and the structure of the device are discussed. The optimum criteria of some key parameters of the SSPD, such as the power output density, efficiency, thickness of the normal metal, and the load resistance, are given. The results obtained here could provide a theoretical basis for the optimal design and operation of nanoscale SSPDs.

机译：纳米级spin-Seebeck的理论模型电力设备(SSPD)提出了基于纵向spin-Seebeck效应影响铁磁绝缘体和正常的金属。输出功率和热的表达式SSPD的派生分析效率。纳米级的性能特征SSPD使用数值模拟分析。最大输出功率密度和效率数值计算。厅角的性能特征分析了SSPD。设备的结构进行了讨论。的一些关键参数的最优标准SSPD,如输出功率密度,效率,正常厚度的金属和负载电阻,。这里获得可能提供了理论依据为纳米级的优化设计和操作

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来源
《Nanoscale》 |2015年第17期|7920-7926|共7页
作者
Liao Tianjun; Lin Jian; Su GuozhenLin BihongChen Jincan;
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作者单位

Xiamen Univ, Dept Phys, Xiamen 361005, Peoples R China;

Huaqiao Univ, Coll Informat Sci & Engn, Xiamen 361021, Peoples R China;

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原文格式 PDF
正文语种英语
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关键词
performance characteristics; Bilayers; nanoscaleHall angleEnergy sourcesOptimal designPower outputLoad Resistancethermal efficiency;

机译：性能特点;影响;nanoscaleHallangleEnergy sourcesOptimal设计功率outputLoadResistancethermal效率;

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Optimum design of a nanoscale spin-Seebeck power device

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