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Thermally induced magnetic order from glassiness in elemental neodymium

Benjamin Verlhac, Lorena Niggli, Anders Bergman, Umut Kamber, Andrey A. Bagrov, Diana Iuşan, Lars Nordström, M. I. Katsnelson, Daniel Wegner, Olle Eriksson, Alexander A. Khajetoorians

2022Nature Physics13 citationsDOIOpen Access PDF

Abstract

Abstract At finite temperatures, fluctuations invariably introduce disorder and are responsible for ultimately destroying ordered phases. Here we present an unusual magnetic transition in elemental neodymium where, with increasing temperature, long-range multiply periodic ‘multi-Q’ magnetic order emerges from a self-induced spin glass. Using temperature-dependent spin-polarized scanning tunnelling microscopy, we characterize the local order of a previously reported spin glass phase, and quantify the emergence of long-range multi-Q order with increasing temperature. We develop two analysis tools that allow us to determine the glass transition temperature from measurements of the spatially dependent magnetization. We compare these observations with atomistic spin dynamics simulations, which reproduce the qualitative observation of a phase transition from a low-temperature spin glass phase to an intermediate ordered multi-Q phase. These simulations trace the origin of the unexpected high-temperature order in weakened frustration driven by temperature-dependent sublattice correlations. These findings constitute an example of order from disorder, and provide a platform to study the rich magnetization dynamics of a self-induced spin glass.

Topics & Concepts

Spin glassCondensed matter physicsFrustrationPhase transitionNeodymiumMagnetizationPhase (matter)Spin (aerodynamics)PhysicsQuantum tunnellingAtmospheric temperature rangeRange (aeronautics)Chemical physicsMaterials scienceMagnetic fieldOpticsThermodynamicsLaserQuantum mechanicsComposite materialTheoretical and Computational PhysicsAdvanced Condensed Matter PhysicsQuantum many-body systems
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