Fracton Explained

A fracton is a collective quantized vibration on a substrate with a fractal structure.[1] [2]

Fractons are the fractal analog of phonons. Phonons are the result of applying translational symmetry to the potential in a Schrödinger equation. Fractal self-similarity can be thought of as a symmetry somewhat comparable to translational symmetry. Translational symmetry is symmetry under displacement or change of position, and fractal self-similarity is symmetry under change of scale. The quantum mechanical solutions to such a problem in general lead to a continuum of states with different frequencies. In other words, a fracton band is comparable to a phonon band. The vibrational modes are restricted to part of the substrate and are thus not fully delocalized, unlike phonon vibrational modes. Instead, there is a hierarchy of vibrational modes that encompass smaller and smaller parts of the substrate.

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Notes and References

  1. Alexander. S . C. Laermans . R. Orbach . H.M. Rosenberg. Fracton interpretation of vibrational properties of cross-linked polymers, glasses, and irradiated quartz. Physical Review B. 15 October 1983. 28. 8. 4615–4619. 10.1103/physrevb.28.4615. 1983PhRvB..28.4615A .
  2. .