Spin separation in a zigzag graphene nanoribbon junction

J. Wang; H. Y. Tian; Y. H. Yang; K. S. Chan

doi:10.1103/PhysRevB.86.081404

Spin separation in a zigzag graphene nanoribbon junction

J. Wang, H. Y. Tian, Y. H. Yang, K. S. Chan

Research output: Journal Publications and Reviews › RGC 22 - Publication in policy or professional journal

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Abstract

We propose an approach to detect spin currents in an even zigzag graphene nanoribbon (ZR) junction, based on the peculiar intervalley selection rule in the ribbon when only zero-energy modes are involved in transport. Spatial spin separation arises from the bipolar property of the undoped ZR and opposite pseudoparities of electrons in the conduction and valence bands, and does not involve any magnetic field or spin orbit interaction. A measurable fully spin-polarized charge current or potential can thus be converted from either coherent or incoherent spin resources. Our findings may shed light on making spintronics devices based on graphene nanoribbons. © 2012 American Physical Society.

Original language	English
Article number	81404
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	86
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.86.081404
Publication status	Published - 13 Aug 2012

Publisher's Copyright Statement

COPYRIGHT TERMS OF DEPOSITED FINAL PUBLISHED VERSION FILE: Wang, J., Tian, H. Y., Yang, Y. H., & Chan, K. S. (2012). Spin separation in a zigzag graphene nanoribbon junction. Physical Review B - Condensed Matter and Materials Physics, 86(8), [81404]. https://doi.org/10.1103/PhysRevB.86.081404. The copyright of this article is owned by American Physical Society.

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abstract = "We propose an approach to detect spin currents in an even zigzag graphene nanoribbon (ZR) junction, based on the peculiar intervalley selection rule in the ribbon when only zero-energy modes are involved in transport. Spatial spin separation arises from the bipolar property of the undoped ZR and opposite pseudoparities of electrons in the conduction and valence bands, and does not involve any magnetic field or spin orbit interaction. A measurable fully spin-polarized charge current or potential can thus be converted from either coherent or incoherent spin resources. Our findings may shed light on making spintronics devices based on graphene nanoribbons. {\textcopyright} 2012 American Physical Society.",

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AU - Tian, H. Y.

AU - Yang, Y. H.

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N2 - We propose an approach to detect spin currents in an even zigzag graphene nanoribbon (ZR) junction, based on the peculiar intervalley selection rule in the ribbon when only zero-energy modes are involved in transport. Spatial spin separation arises from the bipolar property of the undoped ZR and opposite pseudoparities of electrons in the conduction and valence bands, and does not involve any magnetic field or spin orbit interaction. A measurable fully spin-polarized charge current or potential can thus be converted from either coherent or incoherent spin resources. Our findings may shed light on making spintronics devices based on graphene nanoribbons. © 2012 American Physical Society.

AB - We propose an approach to detect spin currents in an even zigzag graphene nanoribbon (ZR) junction, based on the peculiar intervalley selection rule in the ribbon when only zero-energy modes are involved in transport. Spatial spin separation arises from the bipolar property of the undoped ZR and opposite pseudoparities of electrons in the conduction and valence bands, and does not involve any magnetic field or spin orbit interaction. A measurable fully spin-polarized charge current or potential can thus be converted from either coherent or incoherent spin resources. Our findings may shed light on making spintronics devices based on graphene nanoribbons. © 2012 American Physical Society.

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Spin separation in a zigzag graphene nanoribbon junction

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