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Processing of cometary grains at the nucleus surface

✍ Scribed by Max K. Wallis; Sirwan Al-Mufti

Publisher
Springer Netherlands
Year
1996
Tongue
English
Weight
501 KB
Volume
72
Category
Article
ISSN
1573-0794

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✦ Synopsis

Cometary

material inevitably undergoes chemical changes before and on leaving the nucleus. In seeking to explain comets as the origin of many IDPs (interplanetary dust particles), an understanding of potential surface chemistry is vital. Grains are formed and transformed at the nucleus surface; much of the cometary voiatiles may arise from the organic material.

In cometary near-surface permafrost, one expects cryogenic chemistry with crystal growth and isotope. This could be the hydrous environment where IDPs form. Seasonal and geographic variations imply a range of environmental conditions and surface evolution.

Interplanetary dust impacts and electrostatic forces also have roles in generating cometary dust. The absence of predicted cometary dust 'envelopes' is compatible with the wide range of particle structures and compositions. Study of IDPs would distinguish between this model and alternatives that see comets as aggregates of core-mantle grains built in interstellar clouds.

πŸ“œ SIMILAR VOLUMES

The organic nature of cometary grains
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✍ N. C. Wickramasinghe; M. K. Wallis; S. Al-Mufti; F. Hoyle; D. T. Wickramasinghe πŸ“‚ Article πŸ“… 1988 πŸ› Springer Netherlands 🌐 English βš– 460 KB

Infrared observations of comets over the 2-4 pm waveband are interpreted in terms of a model with varying contributions from bacterial-type and viral-type particles, and with small additional contributions arising from degraded organic molecules at grain surfaces.

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In the near future, several space missions are scheduled, which will closely investigate short-period comets. Some of these (e.g., ROSETTA) will also deliver landing probes for in situ investigations of the nucleus' surface. Therefore there is now renewed interest in the structure and behavior of co