GIANT NEGATIVE MAGNETORESISTANCE AND STRONG ELECTRON-LATTICE COUPLING IN AMORPHOUS SEMICONDUCTORS WITH MAGNETIC IMPURITIES

机译：具有磁性杂质的非晶半导体中的巨大负磁致电阻和强电-晶格耦合

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Giant negative magnetoresistance (MR) has been recently observed in Si-Gd amorphous alloys at compositions close to metal-insulator transition. The negative MR in a-Si/Gd is accompanied by massive spectral weight transfer in optical conductivity with magnetic field, which is absent in a-Si/Y. However, the weight transfer with temperature was observed in both systems. The theory of this phenomenon is suggested, which takes into account a strong carrier-lattice coupling leading to formation of local singlet pairs. The breakdown of the pairs by the temperature and exchange interaction with Gd spins provides a mechanism for the observed behavior. This behavior is compared with earlier observations of large negative MR in a-Ge/Cr and InO_x amorphous alloys, where a similar explanation applies. The leading role of lattice polaron effect can be checked by measuring isotope effect upon substitution ~(28)Si → ~(30)Si, which should cause the temperature shift of the conductivity.

机译：最近在Si-Gd非晶态合金中观察到巨大的负磁阻（MR），其组成接近于金属-绝缘体的转变。 a-Si / Gd中的负MR伴随着磁场中光导率的大量光谱转移，而a-Si / Y中却没有。但是，在两个系统中均观察到了重量随温度的传递。提出了这种现象的理论，该理论考虑了导致局部单重态对形成的强的载体-晶格耦合。温度和与Gd自旋的交换相互作用对对的分解为观察到的行为提供了一种机制。将该行为与a-Ge / Cr和InO_x非晶态合金中较大的负MR的早期观察结果进行了比较，其中采用了类似的解释。晶格极化子效应的主导作用可以通过测量取代〜（28）Si→〜（30）Si时的同位素效应来检查，这会引起电导率的温度漂移。

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《NATO Advanced Research Workshop on Colossal Magnetoresistance and Vibronic Interactions and the 15th International Jahn-Teller Symposium on Vibronic Interactions in Crystals and Molecules, Aug 16-22, 2000, Boston, U.S.A. 》|2000年|p.133-140|共8页
会议地点 Boston MA(US);Boston MA(US)
作者
A.M. Bratkovsky;
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作者单位

Hewlett-Packard Labs, 1501 Page Mill Road, Palo Alto, CA 94034;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术 ;
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GIANT NEGATIVE MAGNETORESISTANCE AND STRONG ELECTRON-LATTICE COUPLING IN AMORPHOUS SEMICONDUCTORS WITH MAGNETIC IMPURITIES

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