Exploiting the high angular resolution of high field electron paramagnetic resonance measured at 95, 190, and 285 GHz we determine the rotational nonergodicity parameter of different probe molecules in the glass former o-terphenyl and polybutadiene in a model-independent way. Our results clearly show a characteristic change in the temperature of the nonergodicity parameter proving a rather sharp dynamic crossover in both systems, in contrast to previous results from other techniques. (c) 2008 American Institute of Physics.
Anomaly of the rotational nonergodicity parameter of glass formers probed by high field electron paramagnetic resonance
Martinelli M;Massa CA;Leporini D
2008
Abstract
Exploiting the high angular resolution of high field electron paramagnetic resonance measured at 95, 190, and 285 GHz we determine the rotational nonergodicity parameter of different probe molecules in the glass former o-terphenyl and polybutadiene in a model-independent way. Our results clearly show a characteristic change in the temperature of the nonergodicity parameter proving a rather sharp dynamic crossover in both systems, in contrast to previous results from other techniques. (c) 2008 American Institute of Physics.File in questo prodotto:
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Descrizione: Anomaly of the rotational nonergodicity parameter of glass formers probed by high field electron paramagnetic resonance
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