Controlling the Topological Sector of Magnetic Solitons in Exfoliated Cr1/3NbS2 Crystals

L. Wang; N. Chepiga; D. K. Ki; L. Li; F. Li; W. Zhu; Y. Kato; O. S. Ovchinnikova; F. Mila; I. Martin; D. Mandrus; A. F. Morpurgo

doi:10.1103/PhysRevLett.118.257203

Controlling the Topological Sector of Magnetic Solitons in Exfoliated Cr1/3NbS2 Crystals

L. Wang, N. Chepiga, D. K. Ki, L. Li, F. Li, W. Zhu, Y. Kato, O. S. Ovchinnikova, F. Mila, I. Martin, D. Mandrus, A. F. Morpurgo

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

62 Scopus citations

Abstract

We investigate manifestations of topological order in monoaxial helimagnet Cr1/3NbS2 by performing transport measurements on ultrathin crystals. Upon sweeping the magnetic field perpendicularly to the helical axis, crystals thicker than one helix pitch (48 nm) but much thinner than the magnetic domain size (∼1 μm) are found to exhibit sharp and hysteretic resistance jumps. We show that these phenomena originate from transitions between topological sectors with a different number of magnetic solitons. This is confirmed by measurements on crystals thinner than 48 nm - in which the topological sector cannot change - that do not exhibit any jump or hysteresis. Our results show the ability to deterministically control the topological sector of finite-size Cr1/3NbS2 and to detect intersector transitions by transport measurements.

Original language	English
Article number	257203
Journal	Physical Review Letters
Volume	118
Issue number	25
DOIs	https://doi.org/10.1103/PhysRevLett.118.257203
State	Published - 23 Jun 2017

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10.1103/PhysRevLett.118.257203

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title = "Controlling the Topological Sector of Magnetic Solitons in Exfoliated Cr1/3NbS2 Crystals",

abstract = "We investigate manifestations of topological order in monoaxial helimagnet Cr1/3NbS2 by performing transport measurements on ultrathin crystals. Upon sweeping the magnetic field perpendicularly to the helical axis, crystals thicker than one helix pitch (48 nm) but much thinner than the magnetic domain size (∼1 μm) are found to exhibit sharp and hysteretic resistance jumps. We show that these phenomena originate from transitions between topological sectors with a different number of magnetic solitons. This is confirmed by measurements on crystals thinner than 48 nm - in which the topological sector cannot change - that do not exhibit any jump or hysteresis. Our results show the ability to deterministically control the topological sector of finite-size Cr1/3NbS2 and to detect intersector transitions by transport measurements.",

author = "L. Wang and N. Chepiga and Ki, {D. K.} and L. Li and F. Li and W. Zhu and Y. Kato and Ovchinnikova, {O. S.} and F. Mila and I. Martin and D. Mandrus and Morpurgo, {A. F.}",

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AU - Wang, L.

AU - Chepiga, N.

AU - Ki, D. K.

AU - Li, L.

AU - Li, F.

AU - Zhu, W.

AU - Kato, Y.

AU - Ovchinnikova, O. S.

AU - Mila, F.

AU - Martin, I.

AU - Mandrus, D.

AU - Morpurgo, A. F.

PY - 2017/6/23

Y1 - 2017/6/23

N2 - We investigate manifestations of topological order in monoaxial helimagnet Cr1/3NbS2 by performing transport measurements on ultrathin crystals. Upon sweeping the magnetic field perpendicularly to the helical axis, crystals thicker than one helix pitch (48 nm) but much thinner than the magnetic domain size (∼1 μm) are found to exhibit sharp and hysteretic resistance jumps. We show that these phenomena originate from transitions between topological sectors with a different number of magnetic solitons. This is confirmed by measurements on crystals thinner than 48 nm - in which the topological sector cannot change - that do not exhibit any jump or hysteresis. Our results show the ability to deterministically control the topological sector of finite-size Cr1/3NbS2 and to detect intersector transitions by transport measurements.

AB - We investigate manifestations of topological order in monoaxial helimagnet Cr1/3NbS2 by performing transport measurements on ultrathin crystals. Upon sweeping the magnetic field perpendicularly to the helical axis, crystals thicker than one helix pitch (48 nm) but much thinner than the magnetic domain size (∼1 μm) are found to exhibit sharp and hysteretic resistance jumps. We show that these phenomena originate from transitions between topological sectors with a different number of magnetic solitons. This is confirmed by measurements on crystals thinner than 48 nm - in which the topological sector cannot change - that do not exhibit any jump or hysteresis. Our results show the ability to deterministically control the topological sector of finite-size Cr1/3NbS2 and to detect intersector transitions by transport measurements.

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Controlling the Topological Sector of Magnetic Solitons in Exfoliated Cr1/3NbS2 Crystals

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