Almoro Percival F, Pham Quang Duc, Serrano-Garcia David Ignacio, Hasegawa Satoshi, Hayasaki Yoshio, Takeda Mitsuo, Yatagai Toyohiko
Opt Lett. 2016 May 15;41(10):2161-4. doi: 10.1364/OL.41.002161.
In the multiple-plane phase retrieval method, a tedious-to-fabricate phase diffuser plate is used to increase the axial intensity variation for a nonstagnating iterative reconstruction of a smooth object wavefront. Here we show that a spatial light modulator (SLM) can be used as an easily controllable diffuser for phase retrieval. The polarization modulation at the SLM facilitates independent formation of orthogonally polarized scattered and specularly reflected beams. Through an analyzer, the polarization states are filtered enabling beam interference, thereby efficiently encoding the phase information in the axially diverse speckle intensity measurements. The technique is described using wave propagation and Jones calculus, and demonstrated experimentally on technical and biological samples.
在多平面相位恢复方法中,需使用一块制作繁琐的相位漫射板来增加轴向强度变化,以对平滑物体波前进行非停滞迭代重建。在此我们表明,空间光调制器(SLM)可用作相位恢复中易于控制的漫射器。SLM处的偏振调制有助于独立形成正交偏振的散射光束和镜面反射光束。通过一个检偏器,对偏振态进行滤波以实现光束干涉,从而在轴向不同的散斑强度测量中有效地编码相位信息。该技术通过波动传播和琼斯计算法进行描述,并在技术和生物样本上进行了实验验证。