Light-driven topological and magnetic phase transitions in thin-layer antiferromagnets
ORAL
Abstract
In this talk, we will discuss our theoretical study of the effect of low-frequency light pulses in resonance with phonons in the topological and magnetically ordered two septuple-layer (2-SL) MnBi2Te4(MBT) and MnSb2Te4(MST). In both materials, Raman phonons can be excited via non-linear interactions with photo-excited infrared phonons using intense laser pulses attainable in current experimental setups. The light-induced transient lattice distortions change the sign of the effective interlayer exchange interaction and magnetic order accompanied by a topological band transition. We will show that moderate anti-site disorder, typically present in MBT and MST samples, can facilitate such an effect.
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Publication: arXiv:2107.14361 (2021)
Presenters
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Martin A Rodriguez-vega
University of Texas at Austin, Los Alamos National Laboratory
Authors
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Martin A Rodriguez-vega
University of Texas at Austin, Los Alamos National Laboratory
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Zexun Lin
University of Texas at Austin
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Aritz Leonardo
Univ del Pais Vasco
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Maia G Garcia Vergniory
Donostia International Physics Center, Max Planck Institute for Chemical Physics of Solids, Dresden, Germany
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Gregory A Fiete
Northeastern University
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Arthur Ernst
Institut fur Theoretische Physik, Johannes Kepler Universitat