Lizana A, Estévez I, Turpin A, Ramirez C, Peinado A, Campos J
Appl Opt. 2015 Oct 10;54(29):8758-65. doi: 10.1364/AO.54.008758.
Due to the increasing interest of polarimetric information in numerous applications, different Stokes polarimeter designs are provided in the literature for the measure of light beam polarization. Recently, the concept of polarimeters based on the conical refraction (CR) phenomenon, occurring in biaxial crystals, was proposed. CR polarimeters are snapshot polarimeters that allow controlling the volume of data redundancy without an increase in the acquisition time. We present the implementation, calibration, and analysis of an incomplete CR-polarimeter optimized for the measure of linear polarizations. A simpler and cheaper experimental configuration is achieved, if compared with other polarimeters proposed in the literature. The suitability of the polarimeter is experimentally demonstrated and some of its benefits, such as its performance in low-intensity conditions, are discussed.
由于偏振信息在众多应用中的兴趣日益增加,文献中提供了不同的斯托克斯偏振计设计用于测量光束偏振。最近,提出了基于双轴晶体中发生的锥形折射(CR)现象的偏振计概念。CR偏振计是快照偏振计,可在不增加采集时间的情况下控制数据冗余量。我们展示了一种针对线性偏振测量进行优化的不完全CR偏振计的实现、校准和分析。与文献中提出的其他偏振计相比,实现了一种更简单、更便宜的实验配置。通过实验证明了该偏振计的适用性,并讨论了它的一些优点,例如其在低强度条件下的性能。