Rodrigo José A, Alieva Tatiana
Opt Express. 2014 Jun 2;22(11):13472-83. doi: 10.1364/OE.22.013472.
Partially coherent light provides promising advantages for imaging applications. In contrast to its completely coherent counterpart, it prevents image degradation due to speckle noise and decreases cross-talk among the imaged objects. These facts make attractive the partially coherent illumination for accurate quantitative imaging in microscopy. In this work, we present a non-interferometric technique and system for quantitative phase imaging with simultaneous determination of the spatial coherence properties of the sample illumination. Its performance is experimentally demonstrated in several examples underlining the benefits of partial coherence for practical imagining applications. The programmable optical setup comprises an electrically tunable lens and sCMOS camera that allows for high-speed measurement in the millisecond range.
部分相干光为成像应用提供了有前景的优势。与完全相干光相比,它可防止因散斑噪声导致的图像退化,并减少成像物体之间的串扰。这些事实使得部分相干照明在显微镜中用于精确的定量成像颇具吸引力。在这项工作中,我们提出了一种非干涉技术和系统,用于定量相位成像,同时测定样品照明的空间相干特性。在几个示例中通过实验证明了其性能,突出了部分相干在实际成像应用中的优势。该可编程光学装置包括一个电可调透镜和一个sCMOS相机,可实现毫秒级的高速测量。