D. Fioretto scite author profile

We compare the atomic dynamics of the glass to that of the relevant crystal. In the spectra of inelastic scattering, the boson peak of the glass appears higher than the transverse acoustic (TA) singularity of the crystal. However, the density of states shows that they have the same number of states. Increasing pressure causes the transformation of the boson peak of the glass towards the TA singularity of the crystal. Once corrected for the difference in the elastic medium, the boson peak matches the TA singularity in energy and height. This suggests the identical nature of the two features.

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Effect of Densification on the Density of Vibrational States of Glasses

Monaco

et al. 2006

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We studied the effect of densification on the vibrational dynamics of a Na(2)FeSi(3)O(8) glass. The density of vibrational states (DOS) has been measured using nuclear inelastic scattering. The corresponding changes in the microscopic, intermediate-range, and macroscopic properties have also been investigated. The results reveal that, in the absence of local structure transformations, the Debye level and the glass-specific excess of vibrational states above it have the same dependence on density, and the evolution of the DOS is fully described by the transformation of the elastic medium.

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Two crossover regions in the dynamics of glass forming epoxy resins

Corezzi

Beiner²,

Huth³

et al. 2002

112

123

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Broadband dielectric spectroscopy, heat capacity spectroscopy (3omega method), and viscosimetry have been used to study the dynamic glass transition of two glass-forming epoxy resins, poly [(phenyl glycidyl ether)-co-formaldehyde] and diglycidyl ether of bisphenol-A. In spite of their rather simple molecular structure, the dynamics of these systems is characterized by two well-separated crossover regions where the relaxation times of main transition and the two secondary relaxations beta and gamma approach each other. The main transition has three parts: The a process at high temperature, the a(') process between the two crossover regions, and the alpha process at low temperatures. Both the gamma-crossover region [around a temperature T-c(gamma)similar to(1.4-1.5)T-g and a relaxation time tau(c)(gamma)approximate to10(-10) s] and the beta-crossover region [around T-c(beta)similar to(1.1-1.2)T-g and tau(c)(beta)approximate to10(-6) s] could be studied within the experimentally accessible frequency-temperature window. Different typical crossover properties are observed in the two regions. The gamma-crossover region is characterized by onset of the (a',alpha) process, with a relaxation time about one decade greater than that of the quasicontinuous (a,gamma) trace. The beta-crossover region is characterized, besides splitting of main andbeta relaxation times, by a change in the temperature dependence of the main-relaxation time as reflected by a bend in the Stickel plot of the continuous (a('),alpha) trace, the separation of individual temperature dependences of different transport properties such as impurity-ions diffusion coefficient and viscosity, and a temperature-dependent main relaxation time that starts to be in accordance (at lower temperatures) with the Adam-Gibbs model. The cooperativity of the main process between the gamma and beta crossover seems to be small. Below the beta crossover, cooperativity increases up to values of order N(alpha)similar to100 near T-g, and configurational entropy seems to correlate with the main relaxation time. (C) 2002 American Institute of Physics

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D. Fioretto

Equivalence of the Boson Peak in Glasses to the Transverse Acoustic van Hove Singularity in Crystals

Effect of Densification on the Density of Vibrational States of Glasses

Two crossover regions in the dynamics of glass forming epoxy resins

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