Hu Chengdao, Wilson Cameron J G, Scully Daniel M, Stuerzer Tobias, Parsons Simon
EastChem School of Chemistry and Centre for Science at Extreme Conditions The University of Edinburgh King's Buildings, West Mains Road EdinburghEH9 3FJ United Kingdom.
Micro-Epsilon UK Ltd, No. 1 Shorelines Building, Shore Road, BirkenheadCH41 1AU, United Kingdom.
J Appl Crystallogr. 2024 Sep 20;57(Pt 5):1691-1696. doi: 10.1107/S1600576724007829. eCollection 2024 Oct 1.
High-pressure crystallographic data can be measured using a diamond anvil cell (DAC), which allows the sample to be viewed only along a cell vector which runs perpendicular to the diamond anvils. Although centring a sample perpendicular to this direction is straightforward, methods for centring along this direction often rely on sample focusing, measurements of the direct beam or short data collections followed by refinement of the crystal offsets. These methods may be inaccurate, difficult to apply or slow. Described here is a method based on precise measurement of the offset in this direction using a confocal optical device, whereby the cell centre is located at the mid-point of two measurements of the distance between a light source and the external faces of the diamond anvils viewed along the forward and reverse directions of the cell vector. It is shown that the method enables a DAC to be centred to within a few micrometres reproducibly and quickly.
高压晶体学数据可以使用金刚石对顶砧槽(DAC)进行测量,该装置只允许沿垂直于金刚石对顶砧的晶胞向量方向观察样品。虽然将样品垂直于该方向对中很简单,但沿此方向对中的方法通常依赖于样品聚焦、直接光束测量或短数据收集,随后再对晶体偏移进行精修。这些方法可能不准确、难以应用或速度较慢。本文介绍了一种基于使用共焦光学装置精确测量此方向偏移的方法,通过该方法,晶胞中心位于沿晶胞向量的正向和反向观察到的光源与金刚石对顶砧外表面之间距离的两次测量的中点处。结果表明,该方法能够将DAC快速且可重复地对中至几微米以内。
