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Evidences for universal behaviour of condensed matter at
Manifestations at low temperatures
3 other sections not shown
activation energy amorphous anelastic annealing Arrhenius atoms barrier behaviour calculated chalcogenide glasses Chem condensed matter conductivity relaxation correlation d.c. conductivity Debye decay decreases defect density dielectric constant dielectric loss dielectric relaxation diffusion dipolar discussed dislocations dispersion distribution of relaxation dynamics electronic enthalpy entropy equation equilibrium experimental exponential decay fluctuations fractional exponential frequency given glass transition glass transition temperature hopping increase infrared divergent interaction internal friction ionic Ising model kcal/mol lattice Lett linear liquid low energy low temperature Mansingh measured mechanism metallic glasses microscopic mode Moynihan Ngai K L non-Debye relaxation nonlinear observed obtained parameter peak phase space phonon Phys physical plot polymers predictions random range relaxation function relaxation process relaxation rate sample second universality shear shown in figure silicate glasses solid curve specific heat spin glasses strain stress relaxation temperature dependence theory thermal tion transport universality relation viscosity void