Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes

Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes

Abstract We discuss the use of planar Hall effect (PHE) in a ferromagnetic GaMnAs film with two in-plane easy axes as a means for achieving novel logic functionalities. We show that the switching of magnetization between the easy axes in a GaMnAs film depends strongly on the magnitude of the current...

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Main Authors: Sangyeop Lee, Seul-Ki Bac, Seonghoon Choi, Hakjoon Lee, Taehee Yoo, Sanghoon Lee, Xinyu Liu, M. Dobrowolska, Jacek K. Furdyna
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-01219-z
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spelling doaj-903937e53e3b43b39af619b7a353c83d2020-12-08T01:46:02ZengNature Publishing GroupScientific Reports2045-23222017-04-01711810.1038/s41598-017-01219-zNon-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axesSangyeop Lee0Seul-Ki Bac1Seonghoon Choi2Hakjoon Lee3Taehee Yoo4Sanghoon Lee5Xinyu Liu6M. Dobrowolska7Jacek K. Furdyna8Physics Department, Korea UniversityPhysics Department, Korea UniversityPhysics Department, Korea UniversityPhysics Department, Korea UniversityPhysics Department, Korea UniversityPhysics Department, Korea UniversityPhysics Department, University of Notre DamePhysics Department, University of Notre DamePhysics Department, University of Notre DameAbstract We discuss the use of planar Hall effect (PHE) in a ferromagnetic GaMnAs film with two in-plane easy axes as a means for achieving novel logic functionalities. We show that the switching of magnetization between the easy axes in a GaMnAs film depends strongly on the magnitude of the current flowing through the film due to thermal effects that modify its magnetic anisotropy. Planar Hall resistance in a GaMnAs film with two in-plane easy axes shows well-defined maxima and minima that can serve as two binary logic states. By choosing appropriate magnitudes of the input current for the GaMnAs Hall device, magnetic logic functions can then be achieved. Specifically, non-volatile logic functionalities such as AND, OR, NAND, and NOR gates can be obtained in such a device by selecting appropriate initial conditions. These results, involving a simple PHE device, hold promise for realizing programmable logic elements in magnetic electronics.https://doi.org/10.1038/s41598-017-01219-z
collection DOAJ
language English
format Article
sources DOAJ
author Sangyeop Lee
Seul-Ki Bac
Seonghoon Choi
Hakjoon Lee
Taehee Yoo
Sanghoon Lee
Xinyu Liu
M. Dobrowolska
Jacek K. Furdyna
spellingShingle Sangyeop Lee
Seul-Ki Bac
Seonghoon Choi
Hakjoon Lee
Taehee Yoo
Sanghoon Lee
Xinyu Liu
M. Dobrowolska
Jacek K. Furdyna
Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes
Scientific Reports
author_facet Sangyeop Lee
Seul-Ki Bac
Seonghoon Choi
Hakjoon Lee
Taehee Yoo
Sanghoon Lee
Xinyu Liu
M. Dobrowolska
Jacek K. Furdyna
author_sort Sangyeop Lee
title Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes
title_short Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes
title_full Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes
title_fullStr Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes
title_full_unstemmed Non-volatile logic gates based on planar Hall effect in magnetic films with two in-plane easy axes
title_sort non-volatile logic gates based on planar hall effect in magnetic films with two in-plane easy axes
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-04-01
description Abstract We discuss the use of planar Hall effect (PHE) in a ferromagnetic GaMnAs film with two in-plane easy axes as a means for achieving novel logic functionalities. We show that the switching of magnetization between the easy axes in a GaMnAs film depends strongly on the magnitude of the current flowing through the film due to thermal effects that modify its magnetic anisotropy. Planar Hall resistance in a GaMnAs film with two in-plane easy axes shows well-defined maxima and minima that can serve as two binary logic states. By choosing appropriate magnitudes of the input current for the GaMnAs Hall device, magnetic logic functions can then be achieved. Specifically, non-volatile logic functionalities such as AND, OR, NAND, and NOR gates can be obtained in such a device by selecting appropriate initial conditions. These results, involving a simple PHE device, hold promise for realizing programmable logic elements in magnetic electronics.
url https://doi.org/10.1038/s41598-017-01219-z
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