Crystalline and amorphous structure of astrophysical ices

Crystalline and amorphous structure of astrophysical ices

Тема: 9th International Conference on Cryocrystals and Quantum Crystals

Інший ID: PACS: 92.40.Vv, 61.50.Ks, 61.66.–f

URI: http://dspace.nbuv.gov.ua/handle/123456789/118455

Посилання: Crystalline and amorphous structure of astrophysical ices / G. Strazzulla // Физика низких температур. — 2013. — Т. 39, № 5. — С. 556–559. — Бібліогр.: 26 назв. — англ.

Підтримка: This research has been partially supported by the European COST Action CM 0805: The chemical cosmos: Understanding Chemistry in Astronomical Environments. The experimental work in Catania has been performed in the last years by the Laboratorio di Astrofisica SPerimentale (LASP) team and co-workers (G.A. Baratta, R. Brunetto, R. DiBenedetto, D. Fulvio, M. Garozzo, V. Greco, S. Ioppolo, F. Islam, Z. Kanuchova, G. Leto, M.E. Palumbo, I. Sangiorgio, F. Spinella, G. Strazzulla et al.).

Дата: 2013

Завантажень: 547

Crystalline and amorphous structure of astrophysical ices

Анотація:

The structure of water and other ices strongly depends on the temperature at which they formed, e.g., by vapor deposition. It is amorphous if ices are formed at low temperature (e.g., 10–30 K for water ice), or crystalline if the deposition temperature is higher (140–150 K). Ices have a “polycrystalline” structure at intermediate temperatures. The crystalline structure of ices can be damaged up to a complete amorphization by processes such as those due to energetic ion bombardment. Here I describe some experimental results obtained by ion irradiation of water and ammonia ices, two species particularly relevant in astrophysics. The results are discussed in the light of the relevance they have in astronomical environments where the actual structure of the ices depends on a competition between energetic processing that induce amorphization and thermal annealing that favors the transition towards more ordered structures.

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