Abstract
In-line 디지털 홀로그래피가 가지고 있는 가장 근본적인 단점은 실상과 허상 그리고 영차 회절광이 공간적으로 분리 되지 않는 것이다. 본 연구에서는 영차 회절광은 소프트웨어를 이용하여 제거하고, 실상과 허상의 구분은 in-line 홀로그래피 현미경의 기하학적 배치를 이용하여 구분하였다. in-line 홀로그래피 현미경에서 허상의 크기는 대물렌즈와 홀로그램간의 거리에 의존한다. 본 연구에서는 허상의 크기가 대물렌즈의 후방 초점거리와 대물렌즈와 홀로그램 면까지의 거리가 일치할 때 최소가 되는 것을 알았으며, 이를 이용하여 실상과 허상을 구분하였다. A fundamental problem in the in-line digital holography microscope is that the real image and virtual image and zero-order image are not separated spatially. In this paper, we have eliminated the zero-order noise by an averaging method and the twin image is divided using a geometrical set-up in an in-line digital holographic microscope. The size of the virtual image depends on the distance between the objective lens and the hologram plane and on the distance between the hologram plane and the image plane. We found that the virtual image size is smallest when the distance between the objective lens and the hologram plane is equal to the back focal length of the objective lens. We could divide the virtual image and real image by controlling the distance between the hologram plane and the objective lens.
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