Experimental Demonstration of xor Operation in Graphene Magnetologic Gates at Room Temperature

Hua Wen; Hanan Dery; Walid Amamou; Tiancong Zhu; Zhisheng Lin; Jing Shi; Igor Žutić; Ilya Krivorotov; L. J. Sham; Roland K. Kawakami

doi:10.1103/PhysRevApplied.5.044003

Experimental Demonstration of xor Operation in Graphene Magnetologic Gates at Room Temperature

Hua Wen
, Hanan Dery
, Walid Amamou
, Tiancong Zhu
, Zhisheng Lin
, Jing Shi
, Igor Žutić
, Ilya Krivorotov
, L. J. Sham
, Roland K. Kawakami

Physics

University at Buffalo

University of California at Riverside
Ohio State University
University of Rochester
University of California at Irvine
University of California at San Diego

Research output: Contribution to journal › Article › peer-review

65 Scopus citations

Abstract

We report the experimental demonstration of a magnetologic gate built on graphene at room temperature. This magnetologic gate consists of three ferromagnetic electrodes contacting a single-layer graphene spin channel and relies on spin injection and spin transport in the graphene. We utilize electrical bias tuning of spin injection to balance the inputs and achieve "exclusive or" (xor) logic operation. Furthermore, a simulation of the device performance shows that substantial improvement towards spintronic applications can be achieved by optimizing the device parameters such as the device dimensions. This advance holds promise as a basic building block for spin-based information processing.

Original language	English
Article number	044003
Journal	Physical Review Applied
Volume	5
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevApplied.5.044003
State	Published - Apr 4 2016

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10.1103/PhysRevApplied.5.044003

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title = "Experimental Demonstration of xor Operation in Graphene Magnetologic Gates at Room Temperature",

abstract = "We report the experimental demonstration of a magnetologic gate built on graphene at room temperature. This magnetologic gate consists of three ferromagnetic electrodes contacting a single-layer graphene spin channel and relies on spin injection and spin transport in the graphene. We utilize electrical bias tuning of spin injection to balance the inputs and achieve {"}exclusive or{"} (xor) logic operation. Furthermore, a simulation of the device performance shows that substantial improvement towards spintronic applications can be achieved by optimizing the device parameters such as the device dimensions. This advance holds promise as a basic building block for spin-based information processing.",

author = "Hua Wen and Hanan Dery and Walid Amamou and Tiancong Zhu and Zhisheng Lin and Jing Shi and Igor {\v Z}uti{\'c} and Ilya Krivorotov and Sham, \{L. J.\} and Kawakami, \{Roland K.\}",

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T1 - Experimental Demonstration of xor Operation in Graphene Magnetologic Gates at Room Temperature

AU - Wen, Hua

AU - Dery, Hanan

AU - Amamou, Walid

AU - Zhu, Tiancong

AU - Lin, Zhisheng

AU - Shi, Jing

AU - Žutić, Igor

AU - Krivorotov, Ilya

AU - Sham, L. J.

AU - Kawakami, Roland K.

PY - 2016/4/4

Y1 - 2016/4/4

N2 - We report the experimental demonstration of a magnetologic gate built on graphene at room temperature. This magnetologic gate consists of three ferromagnetic electrodes contacting a single-layer graphene spin channel and relies on spin injection and spin transport in the graphene. We utilize electrical bias tuning of spin injection to balance the inputs and achieve "exclusive or" (xor) logic operation. Furthermore, a simulation of the device performance shows that substantial improvement towards spintronic applications can be achieved by optimizing the device parameters such as the device dimensions. This advance holds promise as a basic building block for spin-based information processing.

AB - We report the experimental demonstration of a magnetologic gate built on graphene at room temperature. This magnetologic gate consists of three ferromagnetic electrodes contacting a single-layer graphene spin channel and relies on spin injection and spin transport in the graphene. We utilize electrical bias tuning of spin injection to balance the inputs and achieve "exclusive or" (xor) logic operation. Furthermore, a simulation of the device performance shows that substantial improvement towards spintronic applications can be achieved by optimizing the device parameters such as the device dimensions. This advance holds promise as a basic building block for spin-based information processing.

UR - https://www.scopus.com/pages/publications/84973458209

U2 - 10.1103/PhysRevApplied.5.044003

DO - 10.1103/PhysRevApplied.5.044003

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VL - 5

JO - Physical Review Applied

JF - Physical Review Applied

IS - 4

M1 - 044003

ER -

Experimental Demonstration of xor Operation in Graphene Magnetologic Gates at Room Temperature

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