Evidence for methane and ammonia in the coma of comet P/Halley.

M. Allen; M. Delitsky; W. Huntress; Y. Yung; W. H. Ip; R. Schwenn; H. Rosenbauer; E. Shelley; H. Balsiger; J. Geiss

Evidence for methane and ammonia in the coma of comet P/Halley.

M. Allen, M. Delitsky, W. Huntress, Y. Yung, W. H. Ip, R. Schwenn, H. Rosenbauer, E. Shelley, H. Balsiger, J. Geiss

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摘要

Methane and ammonia abundances in the coma of Halley are derived from Giotto IMS data using an Eulerian model of chemical and physical processes inside the contact surface to simulate Giotto HIS ion mass spectral data for mass-to-charge ratios (m/q) from 15 to 19. The ratio m/q = 19/18 as a function of distance from the nucleus is not reproduced by a model for a pure water coma. It is necessary to include the presence of NH3, and uniquely NH3, in coma gases in order to explain the data. A ratio of production rates Q(NH3)/Q(H2O) = 0.01-0.02 results in model values approximating the Giotto data. Methane is identified as the most probable source of the distinct peak at m/q = 15. The observations are fit best with Q(CH4)/Q(H2O) = 0.02. The chemical composition of the comet nucleus implied by these production rate ratios is unlike that of the outer planets. On the other hand, there are also significant differences from observations of gas phase interstellar material.

原文	???core.languages.en_GB???
頁（從 - 到）	502-512
頁數	11
期刊	Astronomy and Astrophysics
卷	187
發行號	1-2
出版狀態	已出版 - 11月 1987

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title = "Evidence for methane and ammonia in the coma of comet P/Halley.",

abstract = "Methane and ammonia abundances in the coma of Halley are derived from Giotto IMS data using an Eulerian model of chemical and physical processes inside the contact surface to simulate Giotto HIS ion mass spectral data for mass-to-charge ratios (m/q) from 15 to 19. The ratio m/q = 19/18 as a function of distance from the nucleus is not reproduced by a model for a pure water coma. It is necessary to include the presence of NH3, and uniquely NH3, in coma gases in order to explain the data. A ratio of production rates Q(NH3)/Q(H2O) = 0.01-0.02 results in model values approximating the Giotto data. Methane is identified as the most probable source of the distinct peak at m/q = 15. The observations are fit best with Q(CH4)/Q(H2O) = 0.02. The chemical composition of the comet nucleus implied by these production rate ratios is unlike that of the outer planets. On the other hand, there are also significant differences from observations of gas phase interstellar material.",

author = "M. Allen and M. Delitsky and W. Huntress and Y. Yung and Ip, {W. H.} and R. Schwenn and H. Rosenbauer and E. Shelley and H. Balsiger and J. Geiss",

year = "1987",

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volume = "187",

pages = "502--512",

journal = "Astronomy and Astrophysics",

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TY - JOUR

T1 - Evidence for methane and ammonia in the coma of comet P/Halley.

AU - Allen, M.

AU - Delitsky, M.

AU - Huntress, W.

AU - Yung, Y.

AU - Ip, W. H.

AU - Schwenn, R.

AU - Rosenbauer, H.

AU - Shelley, E.

AU - Balsiger, H.

AU - Geiss, J.

PY - 1987/11

Y1 - 1987/11

N2 - Methane and ammonia abundances in the coma of Halley are derived from Giotto IMS data using an Eulerian model of chemical and physical processes inside the contact surface to simulate Giotto HIS ion mass spectral data for mass-to-charge ratios (m/q) from 15 to 19. The ratio m/q = 19/18 as a function of distance from the nucleus is not reproduced by a model for a pure water coma. It is necessary to include the presence of NH3, and uniquely NH3, in coma gases in order to explain the data. A ratio of production rates Q(NH3)/Q(H2O) = 0.01-0.02 results in model values approximating the Giotto data. Methane is identified as the most probable source of the distinct peak at m/q = 15. The observations are fit best with Q(CH4)/Q(H2O) = 0.02. The chemical composition of the comet nucleus implied by these production rate ratios is unlike that of the outer planets. On the other hand, there are also significant differences from observations of gas phase interstellar material.

AB - Methane and ammonia abundances in the coma of Halley are derived from Giotto IMS data using an Eulerian model of chemical and physical processes inside the contact surface to simulate Giotto HIS ion mass spectral data for mass-to-charge ratios (m/q) from 15 to 19. The ratio m/q = 19/18 as a function of distance from the nucleus is not reproduced by a model for a pure water coma. It is necessary to include the presence of NH3, and uniquely NH3, in coma gases in order to explain the data. A ratio of production rates Q(NH3)/Q(H2O) = 0.01-0.02 results in model values approximating the Giotto data. Methane is identified as the most probable source of the distinct peak at m/q = 15. The observations are fit best with Q(CH4)/Q(H2O) = 0.02. The chemical composition of the comet nucleus implied by these production rate ratios is unlike that of the outer planets. On the other hand, there are also significant differences from observations of gas phase interstellar material.

UR - http://www.scopus.com/inward/record.url?scp=0023457343&partnerID=8YFLogxK

M3 - 期刊論文

C2 - 11542212

AN - SCOPUS:0023457343

SN - 0004-6361

VL - 187

SP - 502

EP - 512

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

IS - 1-2

ER -

Evidence for methane and ammonia in the coma of comet P/Halley.

摘要

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