Long phase coherence length and anisotropic magnetoresistance in MgZnO thin film

Meng Lv; Hao Wang; Yonggang Xu; Guolin Yu; Huahan Zhang; Tie Lin; Gujin Hu; Ning Dai; Junhao Chu

doi:10.1063/1.4918541

Long phase coherence length and anisotropic magnetoresistance in MgZnO thin film

Meng Lv
, Hao Wang
, Yonggang Xu
, Guolin Yu
, Huahan Zhang
, Tie Lin
, Gujin Hu
, Ning Dai
, Junhao Chu

CAS - Shanghai Institute of Technical Physics
Xiamen University
University of Science and Technology of China
Jiangsu Collaborative Innovation Center of Photovoltaic Science and Engineering

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

We comprehensively investigate magnetotransport properties of MgZnO thin film grown on ZnO substrate by molecular-beam epitaxy. We measure the weak localization effect and extract the electron phase coherence length by fitting to a three-dimensional weak localization theory and by analyzing the different changing rate of the magnetoresistance, results of which are in good agreement with each other. The phase coherence length ranges from 38.4±1nm at 50K to 99.8±3.6nm at 1.4K, almost the same as that of ZnO nanoplates and In-doped ZnO nanowires, and its temperature dependence is found to scale as T-3/4. Meanwhile, we study the anisotropic magnetoresistance resulting from the geometric effect as well as the Lorentz force induced path-length effect, which will be enhanced in higher magnetic fields.

源语言	英语
文章编号	155304
期刊	Journal of Applied Physics
卷	117
期	15
DOI	https://doi.org/10.1063/1.4918541
出版状态	已出版 - 21 4月 2015
已对外发布	是

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title = "Long phase coherence length and anisotropic magnetoresistance in MgZnO thin film",

abstract = "We comprehensively investigate magnetotransport properties of MgZnO thin film grown on ZnO substrate by molecular-beam epitaxy. We measure the weak localization effect and extract the electron phase coherence length by fitting to a three-dimensional weak localization theory and by analyzing the different changing rate of the magnetoresistance, results of which are in good agreement with each other. The phase coherence length ranges from 38.4±1nm at 50K to 99.8±3.6nm at 1.4K, almost the same as that of ZnO nanoplates and In-doped ZnO nanowires, and its temperature dependence is found to scale as T-3/4. Meanwhile, we study the anisotropic magnetoresistance resulting from the geometric effect as well as the Lorentz force induced path-length effect, which will be enhanced in higher magnetic fields.",

author = "Meng Lv and Hao Wang and Yonggang Xu and Guolin Yu and Huahan Zhang and Tie Lin and Gujin Hu and Ning Dai and Junhao Chu",

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TY - JOUR

T1 - Long phase coherence length and anisotropic magnetoresistance in MgZnO thin film

AU - Lv, Meng

AU - Wang, Hao

AU - Xu, Yonggang

AU - Yu, Guolin

AU - Zhang, Huahan

AU - Lin, Tie

AU - Hu, Gujin

AU - Dai, Ning

AU - Chu, Junhao

PY - 2015/4/21

Y1 - 2015/4/21

N2 - We comprehensively investigate magnetotransport properties of MgZnO thin film grown on ZnO substrate by molecular-beam epitaxy. We measure the weak localization effect and extract the electron phase coherence length by fitting to a three-dimensional weak localization theory and by analyzing the different changing rate of the magnetoresistance, results of which are in good agreement with each other. The phase coherence length ranges from 38.4±1nm at 50K to 99.8±3.6nm at 1.4K, almost the same as that of ZnO nanoplates and In-doped ZnO nanowires, and its temperature dependence is found to scale as T-3/4. Meanwhile, we study the anisotropic magnetoresistance resulting from the geometric effect as well as the Lorentz force induced path-length effect, which will be enhanced in higher magnetic fields.

AB - We comprehensively investigate magnetotransport properties of MgZnO thin film grown on ZnO substrate by molecular-beam epitaxy. We measure the weak localization effect and extract the electron phase coherence length by fitting to a three-dimensional weak localization theory and by analyzing the different changing rate of the magnetoresistance, results of which are in good agreement with each other. The phase coherence length ranges from 38.4±1nm at 50K to 99.8±3.6nm at 1.4K, almost the same as that of ZnO nanoplates and In-doped ZnO nanowires, and its temperature dependence is found to scale as T-3/4. Meanwhile, we study the anisotropic magnetoresistance resulting from the geometric effect as well as the Lorentz force induced path-length effect, which will be enhanced in higher magnetic fields.

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DO - 10.1063/1.4918541

M3 - 文章

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SN - 0021-8979

VL - 117

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 15

M1 - 155304

ER -

Long phase coherence length and anisotropic magnetoresistance in MgZnO thin film

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