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arxiv: 2405.16432 · v1 · pith:Q3TD5WKN · submitted 2024-05-26 · cond-mat.mes-hall

Revealing the hidden Dirac gap in a topological antiferromagnet using Floquet-Bloch manipulation

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classification cond-mat.mes-hall
keywords diracfloquet-blochmanipulationmasstopologicalantiferromagnetdisorderachieved
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Manipulating solids using the time-periodic drive of a laser pulse is a promising route to generate new phases of matter. Whether such `Floquet-Bloch' manipulation can be achieved in topological magnetic systems with disorder has so far been unclear. In this work, we realize Floquet-Bloch manipulation of the Dirac surface-state mass of the topological antiferromagnet (AFM) MnBi$_2$Te$_4$. Using time- and angle-resolved photoemission spectroscopy (tr-ARPES), we show that opposite helicities of mid-infrared circularly polarized light result in substantially different Dirac mass gaps in the AFM phase, despite the equilibrium Dirac cone being massless. We explain our findings in terms of a Dirac fermion with a random mass. Our results underscore Floquet-Bloch manipulation as a powerful tool for controlling topology even in the presence of disorder, and for uncovering properties of materials that may elude conventional probes.

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