A theory for the beta -relaxation process near the liquid-to-glass crossover

The mode coupling theory for supercooled liquid dynamics finds a beta -relaxation regime on mesoscopic timescales. It is caused by the interplay between nonlinear interactions of density fluctuations and phonon-assisted hopping transport. In this regime all correlation functions and spectra can be expressed in terms of a single beta -correlator G, which is a homogeneous function of time and two relevant control parameters. For temperatures T sufficiently above the critical value Tc hopping effects can be neglected and a stretched susceptibility minimum, is found as a crossover from von Schweidler decay to critical decay. For T near Tc hopping effects balance the cage effect and this results on logarithmic scales in a rather abrupt crossover from the high-frequency alpha -peak tail to the critical spectrum. For T below Tc there appears a frequency window between two knees in the susceptibility spectrum, where hopping effects suppress the enhanced fractal spectra. There occurs a crossover from Debye relaxation to white noise. The resulting susceptibility minimum in the strongly supercooled state exhibits a subtle power law dependence on the separation parameter T-Tc.

• Publication year

  1992

• Venue

  Journal of Physics: Condensed Matter

• Publication date

  1992-09-21

• Fields of study

  Physics, Chemistry

• Identifiers
  DOI 10.1088/0953-8984/4/38/007
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

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