地质物质的激光微探针稳定同位素测量:一些实验考虑(特别参考硫化物中的δ 34s)

A.E. Fallick, P. McConville, A.J. Boyce, R. Burgess, S.P. Kelley
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引用次数: 54

摘要

激光,特别是当通过岩石显微镜聚焦时,可以在气源质谱法测量稳定同位素比之前,为从固体中提取轻元素提供局部热源。在某些情况下,例如在氧气气氛中通过燃烧将硫化物转化为二氧化硫,可能有必要选择能够控制固体目标表面化学反应的操作特性。讨论了波长、激光模式和辐照度等实验考虑因素,并表明几个成功的系统工作在非常相似的辐照度为~ 109W m−2。建议,对于那些需要高空间分辨率和不能容忍深入地表的情况,合适的操作方法是使用相对低功率但窄聚焦的光束来挖掘垂直于需要分辨率的方向的沟槽。这允许空间分辨率为<对于表面质量较差的多孔黄铁矿,也可达到100 μm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Laser microprobe stable isotope measurements on geological materials: Some experimental considerations (with special reference toδ34S in sulphides)

A laser, especially when focused through a petrographic microscope, can provide a localised heat source for extraction of light elements from solids prior to stable isotope ratio measurements by gas-source mass spectrometry. In certain cases, such as conversion of sulphides to SO2 by combustion in an oxygen atmosphere, it may be necessary to choose operating characteristics which allow the chemistry at the solid target surface to be controlled. Experimental considerations such as wavelength, laser mode and irradiance are discussed and it is shown that several successful system work at very similar irradiances of∼ 109W m−2. It is suggested, for those circumstances where high spatial resolution is required and where deep penetration into the surface cannot be tolerated, that a suitable modus operandi is to use a relatively low power but narrowly focused beam to excavate trenches perpendicular to the direction in which resolution is demanded. This allows a spatial resolution of< 100 μm even for porous pyrite witha poor quality of surface.

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