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Observation of Fluctuation-mediated Picosecond Nucleation of a Topological Phase

Overview
Journal Nat Mater
Date 2020 Oct 6
PMID 33020615
Citations 13
Authors
Felix Buttner
Bastian Pfau
Marie Bottcher
Michael Schneider
Giuseppe Mercurio
Christian M Gunther
Piet Hessing
Christopher Klose
Angela Wittmann
Kathinka Gerlinger
Lisa-Marie Kern
Christian Struber
Clemens von Korff Schmising
Josefin Fuchs
Dieter Engel
Alexandra Churikova
Siying Huang
Daniel Suzuki
Ivan Lemesh
Mantao Huang
Lucas Caretta
David Weder
John H Gaida
Marcel Moller
Tyler R Harvey
Sergey Zayko
Kai Bagschik
Robert Carley
Laurent Mercadier
Justine Schlappa
Alexander Yaroslavtsev
Loic Le Guyarder
Natalia Gerasimova
Andreas Scherz
Carsten Deiter
Rafael Gort
David Hickin
Jun Zhu
Monica Turcato
David Lomidze
Florian Erdinger
Andrea Castoldi
Stefano Maffessanti
Matteo Porro
Andrey Samartsev
Jairo Sinova
Claus Ropers
Johan H Mentink
Bertrand Dupe
Geoffrey S D Beach
Stefan Eisebitt
Affiliations
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Abstract

Topological states of matter exhibit fascinating physics combined with an intrinsic stability. A key challenge is the fast creation of topological phases, which requires massive reorientation of charge or spin degrees of freedom. Here we report the picosecond emergence of an extended topological phase that comprises many magnetic skyrmions. The nucleation of this phase, followed in real time via single-shot soft X-ray scattering after infrared laser excitation, is mediated by a transient topological fluctuation state. This state is enabled by the presence of a time-reversal symmetry-breaking perpendicular magnetic field and exists for less than 300 ps. Atomistic simulations indicate that the fluctuation state largely reduces the topological energy barrier and thereby enables the observed rapid and homogeneous nucleation of the skyrmion phase. These observations provide fundamental insights into the nature of topological phase transitions, and suggest a path towards ultrafast topological switching in a wide variety of materials through intermediate fluctuating states.

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