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Hokkaido University Collection of Scholarly and Academic Papers >
Institute of Low Temperature Science >
低温科学 = Low Temperature Science >
第66巻 >

ディープインパクト探査が明かす彗星の内部構造と太陽系の起源

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Please use this identifier to cite or link to this item:http://hdl.handle.net/2115/34718

Title: ディープインパクト探査が明かす彗星の内部構造と太陽系の起源
Other Titles: Deep Impact mission unveils the interior structure of a comet and the origin of the solar system
Authors: 杉田, 精司1 Browse this author
Authors(alt): Sugita, Seiji1
Issue Date: 31-Mar-2008
Publisher: 北海道大学低温科学研究所
Journal Title: 低温科学
Journal Title(alt): Low Temperature Science
Volume: 66
Start Page: 97
End Page: 105
Abstract: ディープインパクト計画は,短周期彗星であるテンペル第1彗星の内部の物質を調べることを目的として人工衝突探査を行った.本稿では,その探査によって得られた観測結果をレビューし,その太陽系および彗星の起源と初期進化における意義を解説する.主な結果としては,(1)テンペル第1彗星の内部物質は典型的な長周期彗星の構成物質とよく似ていること,(2)特に1000Kを超える高温を経験した無水鉱物を大量に含んでいること,(3)衝突地点近傍にはサブミクロンの微小な炭素粒子に富んだ数十cmの厚さを持つ表層があること,が分かったことが挙げられる.これらはそれぞれ,短周期彗星と長周期彗星の形成領域が近かった可能性が高いこと,原始太陽系星雲内では物質の混合効率が高かった可能性が高いこと,テンペル第1彗星が太陽系辺縁部にいた時代に形成した非常に古い表層が残っている可能性があることを示している.
Deep Impact mission conducted an artificial impact experiment to investigate the interior of comet 9P/Tempel 1, a short-period comet. This article reviews the results of this mission and discuss their implications for the origin and early evolution of both comets and the Solar System. Major results of the mission are as follows. (1) Materials excavated from the interior of comet 9P/Tempel 1 are similar to those in long-period comets. (2) The excavated materials contain anhydrous minerals that have experienced high temperatures (>1000 K). (3) The surface of comet 9P/Tempel 1 near the impact point has a surface layer several ten cm in thickness and containing submicron carbon particles. These findings indicate that long-and short-period comets may have been formed in similar locations, that the solar nebula may have had a high radial mixing efficiency, and that comet 9P/Temple 1 may have a very old surface layer that was formed when it was still in the outer peripheral region of the Solar System.
Description: 3章 惑星における氷の物理と化学
Type: bulletin (article)
URI: http://hdl.handle.net/2115/34718
Appears in Collections:低温科学 = Low Temperature Science > 第66巻

Submitter: 低温科学研究所図書室

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