最近の落下例を含む隕石における宇宙線生成放射性核種 : コンドライトの宇宙線照射履歴への制約

Activities of cosmogenic nuclides have been numerously reported for extraterrestrial material, meteorites (especially chondrites). In addition to noble gases, cosmogenic radionuclides (e.g., ^<22>Na, ^<26>Al, ^<46>Sc, ^<53>Mn, ^<54>Mn and ^<60>Co) have also kept i...

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Bibliographic Details
Main Authors: 井上 睦夫, 小村 和久
Format: Article in Journal/Newspaper
Language:Japanese
Published: 日本地球化学会 = Geochemical Society of Japan 2001
Subjects:
Online Access:http://hdl.handle.net/2297/32422
https://kanazawa-u.repo.nii.ac.jp/?action=repository_uri&item_id=29345
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Description
Summary:Activities of cosmogenic nuclides have been numerously reported for extraterrestrial material, meteorites (especially chondrites). In addition to noble gases, cosmogenic radionuclides (e.g., ^<22>Na, ^<26>Al, ^<46>Sc, ^<53>Mn, ^<54>Mn and ^<60>Co) have also kept important records of their history during last ten million years. For example, low ^<60>Co activity observed in most chondrites (<30 dpm/kg) suggests that their preatmospheric radii are less than 〜30 cm, and activities of ^<22>Na and ^<26>Al reflect various irradiation conditions by cosmic-ray such as shielding effect, exposure age and cosmic-ray flux with time and space. Terrestrial age (Antarctic meteorites; H group, <0.4×10^6y; L, LL,<10^6y estimated from ^<26>Al, ^<36>Cl and ^<14>C activities) as well as exposure age (H, 3 -40×10^6y; L, LL, 3 -50×10^6y) shows different distributions between H- and L-, LL-group chondrites, which have possibly preserved the information about breakage of parent body and so on. The combined data of exposure age and activities of cosmogenic nuclides also give constraints on the complex history of chondrites (e.g., multi-stage irradiation as a result of fragmentation) until the collision with the Earth. Recently, with the progress of nondestructive γ-ray techniques, activities of relatively short-lived nuclides such as ^<46>Sc, ^<22>Na implied the irradiation conditions just before fall to the Earth. In this paper, "the evolution history of chondrites after separation from the parent body" is represented from activities of cosmogenic radionuclides in meteorites including recently fallen ones.