Helium and neon abundances and compositions in cometary matter

Bernard Marty; Russell L. Palma; Robert O Pepin; Laurent Zimmermann; Dennis J. Schlutter; Peter G. Burnard; Andrew J. Westphal; Christopher J. Snead; Saša Bajt; Richard H. Becker; Jacob E. Simones

doi:10.1126/science.1148001

Helium and neon abundances and compositions in cometary matter

Bernard Marty, Russell L. Palma, Robert O Pepin, Laurent Zimmermann, Dennis J. Schlutter, Peter G. Burnard, Andrew J. Westphal, Christopher J. Snead, Saša Bajt, Richard H. Becker, Jacob E. Simones

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51 Scopus citations

Abstract

Materials trapped and preserved in comets date from the earliest history of the solar system. Particles captured by the Stardust spacecraft from comet 81P/Wild 2 are indisputable cometary matter available for laboratory study. Here we report measurements of noble gases in Stardust material. Neon isotope ratios are within the range observed in "phase Q," a ubiquitous, primitive organic carrier of noble gases in meteorites. Helium displays ³He/⁴He ratios twice those in phase Q and in Jupiter's atmosphere. Abundances per gram are surprisingly large, suggesting implantation by ion irradiation. The gases are probably carried in high-temperature igneous grains similar to particles found in other Stardust studies. Collectively, the evidence points to gas acquisition in a hot, high ion-flux nebular environment close to the young Sun.

Original language	English (US)
Pages (from-to)	75-78
Number of pages	4
Journal	Science
Volume	319
Issue number	5859
DOIs	https://doi.org/10.1126/science.1148001
State	Published - Jan 4 2008
Externally published	Yes

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title = "Helium and neon abundances and compositions in cometary matter",

abstract = "Materials trapped and preserved in comets date from the earliest history of the solar system. Particles captured by the Stardust spacecraft from comet 81P/Wild 2 are indisputable cometary matter available for laboratory study. Here we report measurements of noble gases in Stardust material. Neon isotope ratios are within the range observed in {"}phase Q,{"} a ubiquitous, primitive organic carrier of noble gases in meteorites. Helium displays 3He/4He ratios twice those in phase Q and in Jupiter's atmosphere. Abundances per gram are surprisingly large, suggesting implantation by ion irradiation. The gases are probably carried in high-temperature igneous grains similar to particles found in other Stardust studies. Collectively, the evidence points to gas acquisition in a hot, high ion-flux nebular environment close to the young Sun.",

author = "Bernard Marty and Palma, {Russell L.} and Pepin, {Robert O} and Laurent Zimmermann and Schlutter, {Dennis J.} and Burnard, {Peter G.} and Westphal, {Andrew J.} and Snead, {Christopher J.} and Sa{\v s}a Bajt and Becker, {Richard H.} and Simones, {Jacob E.}",

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doi = "10.1126/science.1148001",

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TY - JOUR

T1 - Helium and neon abundances and compositions in cometary matter

AU - Marty, Bernard

AU - Palma, Russell L.

AU - Pepin, Robert O

AU - Zimmermann, Laurent

AU - Schlutter, Dennis J.

AU - Burnard, Peter G.

AU - Westphal, Andrew J.

AU - Snead, Christopher J.

AU - Bajt, Saša

AU - Becker, Richard H.

AU - Simones, Jacob E.

PY - 2008/1/4

Y1 - 2008/1/4

N2 - Materials trapped and preserved in comets date from the earliest history of the solar system. Particles captured by the Stardust spacecraft from comet 81P/Wild 2 are indisputable cometary matter available for laboratory study. Here we report measurements of noble gases in Stardust material. Neon isotope ratios are within the range observed in "phase Q," a ubiquitous, primitive organic carrier of noble gases in meteorites. Helium displays 3He/4He ratios twice those in phase Q and in Jupiter's atmosphere. Abundances per gram are surprisingly large, suggesting implantation by ion irradiation. The gases are probably carried in high-temperature igneous grains similar to particles found in other Stardust studies. Collectively, the evidence points to gas acquisition in a hot, high ion-flux nebular environment close to the young Sun.

AB - Materials trapped and preserved in comets date from the earliest history of the solar system. Particles captured by the Stardust spacecraft from comet 81P/Wild 2 are indisputable cometary matter available for laboratory study. Here we report measurements of noble gases in Stardust material. Neon isotope ratios are within the range observed in "phase Q," a ubiquitous, primitive organic carrier of noble gases in meteorites. Helium displays 3He/4He ratios twice those in phase Q and in Jupiter's atmosphere. Abundances per gram are surprisingly large, suggesting implantation by ion irradiation. The gases are probably carried in high-temperature igneous grains similar to particles found in other Stardust studies. Collectively, the evidence points to gas acquisition in a hot, high ion-flux nebular environment close to the young Sun.

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VL - 319

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EP - 78

JO - Science

JF - Science

IS - 5859

ER -

Helium and neon abundances and compositions in cometary matter

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