Abstract
The nearly universal transport and dynamical properties of amorphous materials or glasses are investigated. Reasonably successful phenomenological models have been developed to account for these properties as well as the behaviour near the glass-transition, but quantitative microscopic models have had limited success. One hindrance to these investigations has been the lack of a material which exhibits glass-like properties in more than one phase at a given temperature. This report presents results of neutron-scattering experiments for one such material ordinary ethyl alcohol, which promises to be a model system for future investigations of glassy behaviour. (author). 8 refs.
Fischer, H E;
Schober, H;
Gonzalez, M A;
[1]
Bermejo, F J;
Fayos, R;
Dawidowski, J;
[2]
Ramos, M A;
Vieira, S
[3]
- Institut Max von Laue - Paul Langevin (ILL), 38 - Grenoble (France)
- Consejo Superior de Investigaciones Cientificas, Madrid (Spain)
- Universidad Autonoma de Madrid (Spain)
Citation Formats
Fischer, H E, Schober, H, Gonzalez, M A, Bermejo, F J, Fayos, R, Dawidowski, J, Ramos, M A, and Vieira, S.
Polymorphic ethyl alcohol as a model system for the quantitative study of glassy behaviour.
France: N. p.,
1997.
Web.
Fischer, H E, Schober, H, Gonzalez, M A, Bermejo, F J, Fayos, R, Dawidowski, J, Ramos, M A, & Vieira, S.
Polymorphic ethyl alcohol as a model system for the quantitative study of glassy behaviour.
France.
Fischer, H E, Schober, H, Gonzalez, M A, Bermejo, F J, Fayos, R, Dawidowski, J, Ramos, M A, and Vieira, S.
1997.
"Polymorphic ethyl alcohol as a model system for the quantitative study of glassy behaviour."
France.
@misc{etde_593238,
title = {Polymorphic ethyl alcohol as a model system for the quantitative study of glassy behaviour}
author = {Fischer, H E, Schober, H, Gonzalez, M A, Bermejo, F J, Fayos, R, Dawidowski, J, Ramos, M A, and Vieira, S}
abstractNote = {The nearly universal transport and dynamical properties of amorphous materials or glasses are investigated. Reasonably successful phenomenological models have been developed to account for these properties as well as the behaviour near the glass-transition, but quantitative microscopic models have had limited success. One hindrance to these investigations has been the lack of a material which exhibits glass-like properties in more than one phase at a given temperature. This report presents results of neutron-scattering experiments for one such material ordinary ethyl alcohol, which promises to be a model system for future investigations of glassy behaviour. (author). 8 refs.}
place = {France}
year = {1997}
month = {Apr}
}
title = {Polymorphic ethyl alcohol as a model system for the quantitative study of glassy behaviour}
author = {Fischer, H E, Schober, H, Gonzalez, M A, Bermejo, F J, Fayos, R, Dawidowski, J, Ramos, M A, and Vieira, S}
abstractNote = {The nearly universal transport and dynamical properties of amorphous materials or glasses are investigated. Reasonably successful phenomenological models have been developed to account for these properties as well as the behaviour near the glass-transition, but quantitative microscopic models have had limited success. One hindrance to these investigations has been the lack of a material which exhibits glass-like properties in more than one phase at a given temperature. This report presents results of neutron-scattering experiments for one such material ordinary ethyl alcohol, which promises to be a model system for future investigations of glassy behaviour. (author). 8 refs.}
place = {France}
year = {1997}
month = {Apr}
}