Large Rectification Magnetoresistance in Nonmagnetic Al/Ge/Al Heterojunctions

Overview

Journal Sci Rep

Specialty Science

Date 2015 Sep 22

PMID 26387967

Citations 1

Authors

Kun Zhang

Huan-Huan Li

Peter Grunberg

Qiang Li

Sheng-Tao Ye

Yu-Feng Tian

Shi-Shen Yan

Zhao-Jun Lin

Shi-Shou Kang

Yan-Xue Chen

Guo-Lei Liu

Liang-Mo Mei

Affiliations

Soon will be listed here.

Abstract

Magnetoresistance and rectification are two fundamental physical properties of heterojunctions and respectively have wide applications in spintronics devices. Being different from the well known various magnetoresistance effects, here we report a brand new large magnetoresistance that can be regarded as rectification magnetoresistance: the application of a pure small sinusoidal alternating-current to the nonmagnetic Al/Ge Schottky heterojunctions can generate a significant direct-current voltage, and this rectification voltage strongly varies with the external magnetic field. We find that the rectification magnetoresistance in Al/Ge Schottky heterojunctions is as large as 250% at room temperature, which is greatly enhanced as compared with the conventional magnetoresistance of 70%. The findings of rectification magnetoresistance open the way to the new nonmagnetic Ge-based spintronics devices of large rectification magnetoresistance at ambient temperature under the alternating-current due to the simultaneous implementation of the rectification and magnetoresistance in the same devices.

Citing Articles

Room temperature electrically tunable rectification magnetoresistance in Ge-based Schottky devices.

Huang Q, Yan Y, Zhang K, Li H, Kang S, Tian Y Sci Rep. 2016; 6:37748.

PMID: 27876868 PMC: 5120293. DOI: 10.1038/srep37748.

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