Super-giant magnetoresistance at room-temperature in copper nanowires due to magnetic field modulation of potential barrier heights at nanowire-contact interfaces

Hossain Md I.; Maksud M.; Palapati N. K. R.; Subramanian A.; Atulasimha J.; Bandyopadhyay S.

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Super-giant magnetoresistance at room-temperature in copper nanowires due to magnetic field modulation of potential barrier heights at nanowire-contact interfaces

机译：铜纳米线在室温下的超巨型磁阻是由于磁场调制了纳米线-接触界面处势垒高度的磁场

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We have observed a super-giant (similar to 10 000 000%) negative magnetoresistance at 39 mT field in Cu nanowires contacted with Au contact pads. In these nanowires, potential barriers form at the two Cu/Au interfaces because of Cu oxidation that results in an ultrathin copper oxide layer forming between Cu and Au. Current flows when electrons tunnel through, and/or thermionically emit over, these barriers. A magnetic field applied transverse to the direction of current flow along the wire deflects electrons toward one edge of the wire because of the Lorentz force, causing electron accumulation at that edge and depletion at the other. This lowers the potential barrier at the accumulated edge and raises it at the depleted edge, causing a super-giant magnetoresistance at room temperature.

机译：我们已经在与Au接触垫接触的Cu纳米线中在39 mT的磁场处观察到了超巨大的负磁阻（大约为100 000 000％）。在这些纳米线中，由于铜的氧化，势垒在两个Cu / Au界面处形成，从而导致在Cu和Au之间形成超薄的氧化铜层。当电子隧穿和/或以热离子方式通过这些势垒时，电流流动。由于洛伦兹力，横向于电流沿导线流动方向施加的磁场会将电子偏转到导线的一个边缘，从而导致电子在该边缘聚集，而在另一边缘耗尽。这会降低累积边缘处的势垒，并在耗尽边缘处增加势垒，从而在室温下产生超巨大的磁阻。

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来源
《Nanotechnology》 |2016年第30期|共6页
作者
Hossain Md I.; Maksud M.; Palapati N. K. R.; Subramanian A.; Atulasimha J.; Bandyopadhyay S.;
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正文语种 eng
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magnetoresistance; nanowires; tunneling; thermionic emission;

机译：磁阻;纳米线;隧道效应;热电子发射;

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1. Super-giant magnetoresistance at room-temperature in copper nanowires due to magnetic field modulation of potential barrier heights at nanowire-contact interfaces [J] . Hossain Md I., Maksud M., Palapati N. K. R., Nanotechnology . 2016,第30期

机译：铜纳米线在室温下的超巨型磁阻是由于磁场调制了纳米线-接触界面处势垒高度的磁场
2. Hydrogen Treatment for Superparamagnetic VO2 Nanowires with Large Room-Temperature Magnetoresistance [J] . Li Zejun, Guo Yuqiao, Hu Zhenpeng, Angewandte Chemie . 2016,第28期

机译：具有大室温磁阻的超顺磁性VO2纳米线的氢处理
3. Room-temperature nonsaturating magnetoresistance of intrinsic bulk silicon in high pulsed magnetic fields [J] . L. H. Wu, X. Zhang, J. Vanacken, Applied Physics Letters . 2011,第11期

机译：高脉冲磁场中本征体硅的室温非饱和磁阻
4. Barrier-height and bias-voltage-controlled spin-filter effect and tunneling magnetoresistance in full ferromagnetic Junctions [C] . Dafei Jin, Yuan Ren, Zheng-zhong Li Annual Conference on Magnetism and Magnetic Materials . 2005

机译：屏障高度和偏压控制的旋转滤波器效果和隧道磁阻在全铁磁连接中
5. Low-magnetic field, room-temperature colossal magnetoresistance in manganite thin films. [D] . Robson, Marcia Christine. 1999

机译：锰矿薄膜中的低磁场，室温下的巨大磁阻。
6. The External Electric Field-Induced Tunability of the Schottky Barrier Height in Graphene/AlN Interface: A Study by First-Principles [O] . Xuefei Liu, Zhaocai Zhang, Bing Lv, 2020

机译：石墨烯/ ALN界面中肖特基势垒高度的外部电场引起的可调性：第一原理研究
7. Super-giant magnetoresistance at room-temperature in copper nanowires due to magnetic field modulation of potential barrier heights at nanowire-contact interfaces [O] . Md I Hossain, M Maksud, N K R Palapati, 2016

机译：由于纳米线接触界面的潜在屏障高度的磁场调制，在铜纳米线室温下的超巨大磁阻
8. Magnetic Tunnel Barriers and Associated Magnetic Tunnel Junctions with High Tunneling Magnetoresistance. [R] . Parkin, S. S. P. 2004

机译：具有高隧穿磁电阻的磁隧道势垒和相关磁隧道结。

Super-giant magnetoresistance at room-temperature in copper nanowires due to magnetic field modulation of potential barrier heights at nanowire-contact interfaces

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