On the polyamorphism of fullerite-based orientational glasses

On the polyamorphism of fullerite-based orientational glasses

The dilatometric investigation in the temperature range of 2–28 K shows that a first-order polyamorphous transition occurs in the orientational glasses based on C₆₀ doped with H₂, D₂ and Xe. A polyamorphous transition was also detected in C₆₀ doped with Kr and He. It is observed that the hysteres...

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Збережено в:
Бібліографічні деталі
Дата:2005
Автори: Aleksandrovskii, A.N., Bakai, A.S., Cassidy, D., Dolbin, A.V., Esel’son, V.B., Gadd, G.E., Gavrilko, V.G., Manzhelii, V.G., Moricca, S., Sundqvist, B.
Формат: Стаття
Мова:English
Опубліковано: Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України 2005
Назва видання:Физика низких температур
Теми:
Динамика кристаллической решетки
Онлайн доступ:http://dspace.nbuv.gov.ua/handle/123456789/121464
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Назва журналу:Digital Library of Periodicals of National Academy of Sciences of Ukraine
Цитувати:On the polyamorphism of fullerite-based orientational glasses / A.N. Aleksandrovskii, A.S. Bakai, D. Cassidy, A.V. Dolbin, V.B. Esel’son, G.E. Gadd, V.G. Gavrilko, V.G. Manzhelii, S. Moricca, and B. Sundqvist // Физика низких температур. — 2005. — Т. 31, № 5. — С. 565-584. — Бібліогр.: 38 назв. — англ.

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Digital Library of Periodicals of National Academy of Sciences of Ukraine
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spelling irk-123456789-1214642017-06-15T03:04:50Z On the polyamorphism of fullerite-based orientational glasses Aleksandrovskii, A.N. Bakai, A.S. Cassidy, D. Dolbin, A.V. Esel’son, V.B. Gadd, G.E. Gavrilko, V.G. Manzhelii, V.G. Moricca, S. Sundqvist, B. Динамика кристаллической решетки The dilatometric investigation in the temperature range of 2–28 K shows that a first-order polyamorphous transition occurs in the orientational glasses based on C₆₀ doped with H₂, D₂ and Xe. A polyamorphous transition was also detected in C₆₀ doped with Kr and He. It is observed that the hysteresis of thermal expansion caused by the polyamorphous transition (and, hence, the transition temperature) is essentially dependent on the type of doping gas. Both positive and negative contributions to the thermal expansion were observed in the low-temperature phase of the glasses. The relaxation time of the negative contribution occurs to be much longer than that of the positive contribution. The positive contribution is found to be due to phonon and libron modes, whilst the negative contribution is attributed to tunneling states of the C₆₀ molecules. The characteristic time of the phase transformation from the low-T phase to the high-T phase has been found for the C₆₀–H₂ system at 12 K. A theoretical model is proposed to interpret these observed phenomena. The theoretical model proposed, includes a consideration of the nature of polyamorphism in glasses, as well as the thermodynamics and kinetics of the transition. A model of noninteracting tunneling states is used to explain the negative contribution to the thermal expansion. The experimental data obtained is considered within the framework of the theoretical model. From the theoretical model the order of magnitude of the polyamorphous transition temperature has been estimated. It is found that the late stage of the polyamorphous transformation is described well by the Kolmogorov law with an exponent of n = 1. At this stage of the transformation, the two-dimensional phase boundary moves along the normal, and the nucleation is not important. 2005 Article On the polyamorphism of fullerite-based orientational glasses / A.N. Aleksandrovskii, A.S. Bakai, D. Cassidy, A.V. Dolbin, V.B. Esel’son, G.E. Gadd, V.G. Gavrilko, V.G. Manzhelii, S. Moricca, and B. Sundqvist // Физика низких температур. — 2005. — Т. 31, № 5. — С. 565-584. — Бібліогр.: 38 назв. — англ. 0132-6414 PACS: 74.70.Wz http://dspace.nbuv.gov.ua/handle/123456789/121464 en Физика низких температур Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України
institution Digital Library of Periodicals of National Academy of Sciences of Ukraine
collection DSpace DC
language English
topic Динамика кристаллической решетки
Динамика кристаллической решетки
spellingShingle Динамика кристаллической решетки
Динамика кристаллической решетки
Aleksandrovskii, A.N.
Bakai, A.S.
Cassidy, D.
Dolbin, A.V.
Esel’son, V.B.
Gadd, G.E.
Gavrilko, V.G.
Manzhelii, V.G.
Moricca, S.
Sundqvist, B.
On the polyamorphism of fullerite-based orientational glasses
Физика низких температур
description The dilatometric investigation in the temperature range of 2–28 K shows that a first-order polyamorphous transition occurs in the orientational glasses based on C₆₀ doped with H₂, D₂ and Xe. A polyamorphous transition was also detected in C₆₀ doped with Kr and He. It is observed that the hysteresis of thermal expansion caused by the polyamorphous transition (and, hence, the transition temperature) is essentially dependent on the type of doping gas. Both positive and negative contributions to the thermal expansion were observed in the low-temperature phase of the glasses. The relaxation time of the negative contribution occurs to be much longer than that of the positive contribution. The positive contribution is found to be due to phonon and libron modes, whilst the negative contribution is attributed to tunneling states of the C₆₀ molecules. The characteristic time of the phase transformation from the low-T phase to the high-T phase has been found for the C₆₀–H₂ system at 12 K. A theoretical model is proposed to interpret these observed phenomena. The theoretical model proposed, includes a consideration of the nature of polyamorphism in glasses, as well as the thermodynamics and kinetics of the transition. A model of noninteracting tunneling states is used to explain the negative contribution to the thermal expansion. The experimental data obtained is considered within the framework of the theoretical model. From the theoretical model the order of magnitude of the polyamorphous transition temperature has been estimated. It is found that the late stage of the polyamorphous transformation is described well by the Kolmogorov law with an exponent of n = 1. At this stage of the transformation, the two-dimensional phase boundary moves along the normal, and the nucleation is not important.
format Article
author Aleksandrovskii, A.N.
Bakai, A.S.
Cassidy, D.
Dolbin, A.V.
Esel’son, V.B.
Gadd, G.E.
Gavrilko, V.G.
Manzhelii, V.G.
Moricca, S.
Sundqvist, B.
author_facet Aleksandrovskii, A.N.
Bakai, A.S.
Cassidy, D.
Dolbin, A.V.
Esel’son, V.B.
Gadd, G.E.
Gavrilko, V.G.
Manzhelii, V.G.
Moricca, S.
Sundqvist, B.
author_sort Aleksandrovskii, A.N.
title On the polyamorphism of fullerite-based orientational glasses
title_short On the polyamorphism of fullerite-based orientational glasses
title_full On the polyamorphism of fullerite-based orientational glasses
title_fullStr On the polyamorphism of fullerite-based orientational glasses
title_full_unstemmed On the polyamorphism of fullerite-based orientational glasses
title_sort on the polyamorphism of fullerite-based orientational glasses
publisher Фізико-технічний інститут низьких температур ім. Б.І. Вєркіна НАН України
publishDate 2005
topic_facet Динамика кристаллической решетки
url http://dspace.nbuv.gov.ua/handle/123456789/121464
citation_txt On the polyamorphism of fullerite-based orientational glasses / A.N. Aleksandrovskii, A.S. Bakai, D. Cassidy, A.V. Dolbin, V.B. Esel’son, G.E. Gadd, V.G. Gavrilko, V.G. Manzhelii, S. Moricca, and B. Sundqvist // Физика низких температур. — 2005. — Т. 31, № 5. — С. 565-584. — Бібліогр.: 38 назв. — англ.
series Физика низких температур
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first_indexed 2023-10-18T20:39:38Z
last_indexed 2023-10-18T20:39:38Z
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