Magnon phonon hybridization in 2D antiferromagnet
ORAL
Abstract
Magnons in magnetically ordered low-dimensional materials potentially enable novel nano-spintronics. The lifetime of magnons often depends on the strength of spin-lattice coupling and scattering with phonons. Here, we found coherent magnon phonon hybridization in the class of transition metal phosphorous trichalcogenides (MPX3, M = Fe, Mn, Ni and X = S, Se). From bulk to ultrathin layer, the antiferromagnetic magnons are identified by Zeeman splitting with applied magnetic field. A model is developed to quantitatively explain the nature of the emergent quasiparticles, as well as their center frequencies, scattering intensities, and polarization selection. This strong coupling may result in finite Berry curvature in the hybridization bands and possibly non-trivial topology.
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Presenters
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Jiaming Luo
Rice University
Authors
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Jiaming Luo
Rice University
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Gaihua Ye
Texas Tech University, TTU
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Zhipeng Ye
TTU, Texas Tech Univ, Texas Tech University
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Rui Xu
Rice University
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Lebin Chen
Rice University
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Shuyi Li
Rice University, Department of Physics and Astronomy, Rice University
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Xiaokun Teng
Rice University
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Pengcheng Dai
Rice Univ, Rice University
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Andriy H Nevidomskyy
Rice Univ, Rice University, Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA, Department of Physics and Astronomy, Rice University, TX, USA, Department of Physics and Astronomy, Rice University, Department of Physics & Astronomy, Rice University
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Rui He
Texas Tech Univ, Texas Tech University
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Hanyu Zhu
Rice University