Xin Li, Kuangyin Deng, Benedetta Flebus
Published 2022-07-12Version 1
Several works have recently addressed the emergence of exceptional points (EPs), i.e., spectral singularities of non-Hermitian Hamiltonians, in the long-wavelength dynamics of coupled magnetic systems. Here, by focusing on the driven magnetization dynamics of a van der Waals ferromagnetic bilayer, we show that exceptional points can appear over extended portions of the first Brillouin zone as well. Furthermore, we demonstrate that the effective non-Hermitian magnon Hamiltonian, whose eigenvalues are purely real or come in complex-conjugate pairs, respects an unusual wavevector-dependent pseudo-Hermiticity. Finally, for both armchair and zigzag nanoribbon geometries, we discuss both the complex and purely real spectra of the topological edge states and their experimental implications.
Floquet-engineering the exceptional points in parity-time-symmetric magnonics
Topological protection from exceptional points in Weyl and nodal line semimetals
Tailoring excitonic states of van der Waals bilayers through stacking configuration, band alignment and valley-spin
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