Long-term averaged abundances of VVH cosmic ray nuclei from studies of olivines from Marjalahti meteorite

Nuclear Track Detection Pub Date : 1977-12-01 DOI:10.1016/0145-224X(77)90014-X
V.P. Perelygin, S.G. Stetsenko, P. Pellas , D. Lhagvasuren, O. Otgonsuren, B. Jakupi
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引用次数: 15

Abstract

By using a selective etching technique in olivines from the Marjalahti meteorite, more than 2000 tracks longer than 150 μm have been found to be due to galactic cosmic-ray nuclei of Z > 50. The olivines examined were taken from locations ∼ 5 cm and 8–9 cm below the preatmospheric surfaces of the meteorites, respectively. The data on the track distribution are compared with the known values of the relative abundances of the 50<Z≦92 elements of the solar system. A satisfactory agreement (within a factor of 0.5–2) between the abundances of the nuclei of Z≧70,Z≧90 in galactic cosmic rays and in the solar system is obtained by assuming the group of the longest tracks (720–900 μm) to correspond to the region of thorium to uranium.

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来自Marjalahti陨石橄榄石的VVH宇宙射线核的长期平均丰度研究
通过对Marjalahti陨石橄榄石的选择性蚀刻技术,发现了2000多条长度超过150 μm的轨道,这些轨道是由Z >50. 被检测的橄榄石分别取自陨石大气前表面以下约5厘米和8-9厘米的位置。轨道分布的数据与已知的太阳系50<Z≦92个元素的相对丰度值进行了比较。在银河系宇宙射线中,Z≧70、Z≧90的核的丰度与太阳系中Z≧90的核的丰度在0.5-2的范围内是一致的,我们假定最长径迹组(720 ~ 900 μm)对应于钍-铀的区域。
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Nuclear Track Detection
Nuclear Track Detection
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Letter to the editor Erratum Announcement A multi-detector electrochemical etching and automatic scanning system Anisotropic track etching in olivine crystals using WN solution
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