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Paper detail

Physics of Phonon-Polaritons in Amorphous Materials

The nature of bosonic excitations in disordered materials has remained elusive due to the difficulties in defining key concepts such as quasi-particles in the presence of disorder. We report on the experimental observation of phonon-polaritons in glasses, including a boson peak (BP), i.e. excess of THz modes over the Debye law. A theoretical framework based on the concept of diffusons is developed to model the broadening linewidth of the polariton due to disorder-induced scattering. It is shown that the scaling of the BP frequency with the diffusion constant of the linewidth strongly correlates with that of the Ioffe-Regel (IR) crossover frequency of the polariton. This result demonstrates the universality of the BP in the low-energy spectra of collective bosonic-like excitations in glasses, well beyond the traditional case of acoustic phonons, and establishes the IR crossover as the fundamental physical mechanism behind the BP.

preprint2020arXivOpen access
Luigi CasellaMatteo BaggioliTatsuya MoriAlessio Zaccone
cond-mat.softcond-mat.mtrl-scicond-mat.dis-nn
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Luigi CasellaMatteo BaggioliTatsuya MoriAlessio Zaccone

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