Anisotropic and variable track etching characteristics in natural sphenes

Nuclear Track Detection Pub Date : 1978-06-01 DOI:10.1016/0145-224X(78)90008-X

A.J.W. Gleadow

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引用次数: 95

Abstract

The etching characteristics of fission tracks in sphene are shown to be significantly different before and after thermal annealing. This is due to a progressive modification of the initially anisotropic etching properties of natural sphenes owing to the accumulation of radiation damage from the α-decay of U and Th. As the level of radiation damage increases in sphene, changes occur in the colour, etching rate, track geometry, apparent etching efficiency and angular distribution of the etched tracks. Eventually the sphene behaves like an isotropic material. All these property changes are reversed by thermal annealing and are not reproduced during normal neutron irradiations. The α-damage is annealed at a lower temperature than that required for track-fading. Spontaneous (i.e. fossil) tracks in sphene are therefore not directly comparable in their etching characteristics to tracks induced in the sphene after thermal annealing. Where sphene is used for fission-track dating it is important to use laboratory techniques which do not require such a comparison of tracks before and after annealing.

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天然榍石的各向异性和变径蚀刻特性

热退火前后，sphene中裂变径迹的蚀刻特性有显著差异。这是由于U和Th的α-衰变造成的辐射损伤的累积，导致天然榍石的初始各向异性腐蚀性能逐渐改变。随着辐射损伤水平的增加，蚀刻轨迹的颜色、蚀刻速率、轨迹几何形状、表观蚀刻效率和角度分布都发生了变化。最终，斯芬尼表现得像一种各向同性材料。所有这些性质的变化都是通过热退火来逆转的，并且在正常的中子辐照中不会重现。α-损伤的退火温度低于径迹衰落的退火温度。因此，在其蚀刻特性上，sphene中自发的(即化石)轨迹与热退火后的sphene中诱导的轨迹不能直接进行比较。当将斯芬用于裂变径迹定年时，重要的是使用实验室技术，这种技术不需要对退火前后的径迹进行比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nuclear Track Detection

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