Information transfer by vector spin chirality in finite magnetic chains

Matthias Menzel; Yuriy Mokrousov; Robert Wieser; Jessica Bickel; Elena Vedmedenko; Stefan Blügel; Stefan Heinze; Kirsten Von Bergmann; André Kubetzka; Roland Wiesendanger

doi:10.1103/PhysRevLett.108.197204

Information transfer by vector spin chirality in finite magnetic chains

Matthias Menzel
, Yuriy Mokrousov
, Robert Wieser
, Jessica Bickel
, Elena Vedmedenko
, Stefan Blügel
, Stefan Heinze
, Kirsten Von Bergmann
, André Kubetzka
, Roland Wiesendanger

Physics

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

168 Scopus citations

Abstract

Vector spin chirality is one of the fundamental characteristics of complex magnets. For a one-dimensional spin-spiral state it can be interpreted as the handedness, or rotational sense of the spiral. Here, using spin-polarized scanning tunneling microscopy, we demonstrate the occurrence of an atomic-scale spin spiral in finite individual bi-atomic Fe chains on the (5×1)-Ir(001) surface. We show that the broken inversion symmetry at the surface promotes one direction of the vector spin chirality, leading to a unique rotational sense of the spiral in all chains. Correspondingly, changes in the spin direction of one chain end can be probed tens of nanometers away, suggesting a new way of transmitting information about the state of magnetic objects on the nanoscale. © 2012 American Physical Society.

Original language	English
Article number	197204
Journal	Physical Review Letters
Volume	108
Issue number	19
DOIs	https://doi.org/10.1103/PhysRevLett.108.197204
State	Published - May 7 2012

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10.1103/PhysRevLett.108.197204

Cite this

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title = "Information transfer by vector spin chirality in finite magnetic chains",

abstract = "Vector spin chirality is one of the fundamental characteristics of complex magnets. For a one-dimensional spin-spiral state it can be interpreted as the handedness, or rotational sense of the spiral. Here, using spin-polarized scanning tunneling microscopy, we demonstrate the occurrence of an atomic-scale spin spiral in finite individual bi-atomic Fe chains on the (5×1)-Ir(001) surface. We show that the broken inversion symmetry at the surface promotes one direction of the vector spin chirality, leading to a unique rotational sense of the spiral in all chains. Correspondingly, changes in the spin direction of one chain end can be probed tens of nanometers away, suggesting a new way of transmitting information about the state of magnetic objects on the nanoscale. {\textcopyright} 2012 American Physical Society.",

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AU - Menzel, Matthias

AU - Mokrousov, Yuriy

AU - Wieser, Robert

AU - Bickel, Jessica

AU - Vedmedenko, Elena

AU - Blügel, Stefan

AU - Heinze, Stefan

AU - Von Bergmann, Kirsten

AU - Kubetzka, André

AU - Wiesendanger, Roland

PY - 2012/5/7

Y1 - 2012/5/7

N2 - Vector spin chirality is one of the fundamental characteristics of complex magnets. For a one-dimensional spin-spiral state it can be interpreted as the handedness, or rotational sense of the spiral. Here, using spin-polarized scanning tunneling microscopy, we demonstrate the occurrence of an atomic-scale spin spiral in finite individual bi-atomic Fe chains on the (5×1)-Ir(001) surface. We show that the broken inversion symmetry at the surface promotes one direction of the vector spin chirality, leading to a unique rotational sense of the spiral in all chains. Correspondingly, changes in the spin direction of one chain end can be probed tens of nanometers away, suggesting a new way of transmitting information about the state of magnetic objects on the nanoscale. © 2012 American Physical Society.

AB - Vector spin chirality is one of the fundamental characteristics of complex magnets. For a one-dimensional spin-spiral state it can be interpreted as the handedness, or rotational sense of the spiral. Here, using spin-polarized scanning tunneling microscopy, we demonstrate the occurrence of an atomic-scale spin spiral in finite individual bi-atomic Fe chains on the (5×1)-Ir(001) surface. We show that the broken inversion symmetry at the surface promotes one direction of the vector spin chirality, leading to a unique rotational sense of the spiral in all chains. Correspondingly, changes in the spin direction of one chain end can be probed tens of nanometers away, suggesting a new way of transmitting information about the state of magnetic objects on the nanoscale. © 2012 American Physical Society.

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Information transfer by vector spin chirality in finite magnetic chains

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