Pinhole mirror-based ultra-small angle light scattering setup for simultaneous measurement of scattering and transmission.

Journal of the Optical Society of America and Review of Scientific Instruments Pub Date : 2022-04-01 DOI:10.1063/5.0086146

Samim Ali, Yimin Mao, V. Prabhu

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引用次数: 3

Abstract

An ultra-small angle light scattering setup with the ability of simultaneous registration of scattered light by a charge-coupled device camera and the transmitted direct beam by a pin photodiode was developed. A pinhole mirror was used to reflect the scattered light; the transmitted direct beam was focused and passed through the central pinhole with a diameter of 500 μm. Time-resolved static light scattering measurement was carried out over the angular range 0.2° ≤θ≤ 8.9° with a time resolution of ∼33 ms. The measured scattering pattern in the q-range between 5 × 10-5 and 1.5 × 10-3 nm-1 enables investigating structures of few micrometers to submillimeter, where q is the scattering vector. A LabVIEW-based graphical user interface was developed, which integrates the data acquisition of the scattering pattern and the transmitted intensity. The Peltier temperature-controlled sample cells of varying thicknesses allow for a rapid temperature equilibration and minimization of multiple scattering. The spinodal decomposition for coacervation (phase separation) kinetics of an aqueous mixture of oppositely charged polyelectrolytes was demonstrated.

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基于针孔反射镜的超小角度光散射装置，用于同时测量散射和透射。

研制了一种能同时记录电荷耦合器件相机散射光和针脚光电二极管发射光束的超小角度光散射装置。用针孔镜反射散射光;透射光束聚焦后穿过直径为500 μm的中心针孔。在0.2°≤θ≤8.9°的角范围内进行了时间分辨静态光散射测量，时间分辨为~ 33 ms。在5 × 10-5和1.5 × 10- 3nm -1之间的q范围内测量的散射模式可以研究几微米到亚毫米的结构，其中q是散射矢量。开发了一个基于labview的图形用户界面，将散射方向图和发射强度的数据采集集成在一起。不同厚度的珀尔帖温度控制样品细胞允许快速温度平衡和最小化多重散射。证明了带相反电荷的聚电解质的水相混合物的分离动力学。

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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Journal of the Optical Society of America and Review of Scientific Instruments

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