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Trapping of gas mixtures by amorphous water ice (1988)

Kochavi, E. ; Owen, T. ; Bar-Nun, A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Our studies on gas trapping in amorphous water ice at 24-100 K were extended, by using mixtures of CH4, CO, N2, and Ar, rather than single gases. In 1:1 gas:(water vapor) mixtures, the competition among these gases on the available sites in the ice showed that the trapping capacity for the various gases is determined not only by the structure and dynamics of the ice, but is also influenced by the gas itself. Whereas at 24-35 K all four gases are trapped in the ice indiscriminantly, at 50-75 K there is a clear enhancement, in the order of CH4 〉 CO 〉 N2 〉 or approximately Ar. This order is influenced by the gas-water interaction energy, the size of the trapped gas atom or molecule, the type of clathrate-hydrate formed (I or II) and, possibly, other factors. It seems that the gas can be trapped in the amorphous ice in several different locations, each being affected in a different way by the deposition temperature and gas composition. Once a gas atom or molecule is trapped in a specific location, it is predestined to emerge in one of eight different temperature ranges, which are associated with changes in the ice. The experimentally observed enhancements, together with the findings on the gas composition of comet Halley, might enable an estimation of the gas composition in the region of comet formation.

Keywords: Exobiology

Type: Physical review. B, Condensed matter (ISSN 0163-1829); Volume 38; 11; 7749-54

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2

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On the temperature and gas composition in the region of comet formation (1989)

Bar-Nun, Akiva ; Kleinfeld, Idit

In: Other Sources

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Publication Date: 2011-08-19

Description: The gas composition and temperature in the region of Comet Halley's formation are estimated on the basis of Giotto and Vega spacecraft results, in conjunction with an experimental study of gas-mixture trapping in amorphous water ice. A CO/CH4 ratio of the order of 100, and temperature about 48 K, are inferred for the case of Halley formation in the solar nebula through water vapor condensation in the presence of gas. This formation temperature, which implies that the ice was in amorphous form, is noted to be close to the temperatures observed in circumstellar dust shells by IRAS; it also lends support to the suggestion that short-period comets were formed outside the planet-formation region.

Keywords: ASTROPHYSICS

Type: Icarus (ISSN 0019-1035); 80; 243-253

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3

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Gas release from comets (1991)

Kleinfeld, I. ; Notesco, G. ; Laufer, D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The quantities of such volatiles as CO, CO2, and CH4 trapped in cometary water ice are of great importance in the determination of solar nebula temperature and composition in the regions of their formation. Experiments with water ice are presently noted to retain trapped gases beyond the temperature of amorphous ice's transformation to cubic ice; the retention of gases which emerge during the transformation of the cubic form to hexagonal (as well as during evaporation) occurs to a degree that is linearly dependent on the thickness of the ice layer.

Keywords: ASTROPHYSICS

Type: Icarus (ISSN 0019-1035); 89; 411-413

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4

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Possible cometary origin of heavy noble gases in the atmospheres of Venus, earth, and Mars (1992)

Bar-Nun, Akiva ; Owen, Tobias ; Kleinfeld, Idit

In: Other Sources

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Publication Date: 2019-08-28

Description: Due consideration of the probable history of the Martian atmosphere, as well as noble-gas data from the Mars-derived SNC meteorites and from laboratory tests on the trapping of noble gases in ice, are the bases of the presently hypothesized domination of noble gases in the atmospheres of all terrestrial planets by a mixture of internal components and a contribution from comets. If verified, this hypothesis would underscore the significance of impacts for these planets' volatile inventories. The sizes of the hypothesized comets are of the order of 120 km for Venus and only 80 km for that which struck the earth.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Nature (ISSN 0028-0836); 358; 6381,; 43-46

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