Origin of anomalous temperature dependence of the Nernst effect in narrow-gap semiconductors

arXiv: Materials Science Pub Date : 2020-10-21 DOI:10.1103/PHYSREVB.103.L041202
R. Masuki, T. Nomoto, R. Arita
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引用次数: 3

Abstract

Based on the Boltzmann transport theory, we study the origin of the anomalous temperature dependence of the Nernst coefficient ($\nu$) due to the phonon-drag mechanism. For narrow-gap semiconductors, we find that there are two characteristic temperatures at which a noticeable peak structure appears in $\nu$. Contrarily, the Seebeck coefficient ($S$) always has only one peak. While the breakdown of the Sondheimer cancellation due to the momentum-dependence of the electron relaxation time is essential for the peak in $\nu$ at low $T$, the contribution of the valence band to the phonon-drag current is essential for the peak at higher $T$. By considering this mechanism, we successfully reproduce $\nu$ and $S$ of FeSb$_2$ for which a gigantic phonon-drag effect is observed experimentally.
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窄隙半导体中能量效应异常温度依赖性的起源
基于玻尔兹曼输运理论,我们研究了声子-阻力机制引起的能思特系数($\nu$)温度异常依赖的起源。对于窄间隙半导体,我们发现在两个特征温度下,在$\nu$中出现了明显的峰结构。相反,塞贝克系数($S$)总是只有一个峰值。虽然由于电子弛豫时间的动量依赖导致的桑德海默抵消的击穿对于低T时的峰值是必不可少的,但对于高T时的峰值,价带对声子拖电流的贡献是必不可少的。考虑到这一机制,我们成功地再现了FeSb$_2$的$\nu$和$S$,并在实验中观察到巨大的声子-阻力效应。
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arXiv: Materials Science
arXiv: Materials Science
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