数字显微全息中颗粒重建数值模拟

采用数值模拟方法研究了颗粒空间位置及间距对显微全息测量结果(颗粒位置和粒径)的影响,分别考察了颗粒在平行和垂直光轴方向上,电荷耦合元件(CCD)平面内不同间距和不同粒径情况下的颗粒重建结果,讨论了灰度阈值对颗粒识别的影响,并结合实验对实际拍摄得到的颗粒全息图进行重建分析.结果表明:在垂直光轴方向上,当记录距离分别为5、50、100μm时,可以识别出粒径均为1μm的双颗粒的最小间距分别对应为1、2、2μm;在平行光轴方向上,记录距离分别为5、50、100μm时,可以识别出粒径均为1μm的双颗粒的最小间距分别对应为2、8、16μm;在重建过程中,灰度阈值应设定为不小于0.5.

Numerical simulation of particle reconstruction in digital holographic microscopy

The influence of particle position and distance on the results of measurement(positioning and diameter measurement) was investigated.Reconstruction results of particles in the plane of Charge-coupled Device(CCD) with different distances and diameters in parallel with optical axis and perpendicular to optical axis were studied,respectively.The influence of gray threshold on particle recognition was discussed.Experimental hologram of particles were also reconstructed and analyzed.Results showed that the minimum recognized distances perpendicular to optical axis of two particles with 1 μm in diameter were 1 μm,2 μm,2 μm,related to the recording distances of 5 μm,50 μm,100 μm,respectively.The minimum recognized distances in parallel with optical axis of two particles with 1 μm in diameter were 2 μm,8 μm,16 μm,related to the recording distances of 5 μm,50 μm,100 μm,respectively.The gray threshold should be no smaller than 0.5 in the process of reconstruction.