Muhammad Dilband, Nguyen Cuong M, Lee Jihoon, Kwon Hyuk-Sang
Opt Express. 2016 Sep 19;24(19):22097-103. doi: 10.1364/OE.24.022097.
We present a spatially incoherent dual path Fourier holographic system. Conceptually it is similar to Fourier incoherent single channel holography (FISCH). Although our incoherent off-axis Fourier holographic (IOFH) system does not have the robustness of a single channel system, it has three advantages over FISCH, with two being quite obvious from setup. First, no SLM is required, thus making the system simple and cost-effective. Second, it is capable of high light throughput because in FISCH, the use of SLM reduces light intensity in half by splitting one beam into two; furthermore, an analyzer is required to create interference which also reduces light intensity. The third advantage, which makes this IOFH system applicable even for on-axis samples (as opposed to samples in a half plane as is necessary for FISCH), is achieved by tilting one mirror. Here we demonstrate our system with a sample in half plane as in FISCH for different axial positions, and then by placing the object on an optical axis and tilting one mirror. The reconstructed images demonstrate holographic capabilities of our IOFH system for both on-axis and half plane sample locations.
我们展示了一种空间非相干双路径傅里叶全息系统。从概念上讲,它类似于傅里叶非相干单通道全息术(FISCH)。尽管我们的非相干离轴傅里叶全息(IOFH)系统不具备单通道系统的稳健性,但它相对于FISCH有三个优点,其中两个从设置上看相当明显。首先,不需要空间光调制器(SLM),因此系统简单且具有成本效益。其次,它能够实现高光通量,因为在FISCH中,使用SLM会将一束光分成两束,从而使光强度减半;此外,还需要一个分析器来产生干涉,这也会降低光强度。第三个优点是通过倾斜一个镜子实现的,这使得该IOFH系统甚至适用于轴上样品(与FISCH所需的半平面样品相反)。在这里,我们首先像在FISCH中那样,针对不同轴向位置,用半平面中的样品展示我们的系统,然后将物体放置在光轴上并倾斜一个镜子。重建图像展示了我们的IOFH系统在轴上和半平面样品位置的全息能力。