3D trajectory of minute object by parallel phase-shifting digital holographic microscope

Yasuhiro Awatsuji; Junya Inamoto; Takahito Fukuda; Tomoyoshi Inoue; Osamu Matoba

doi:10.1117/12.2573722

10 October 2020 3D trajectory of minute object by parallel phase-shifting digital holographic microscope

Yasuhiro Awatsuji, Junya Inamoto, Takahito Fukuda, Tomoyoshi Inoue, Osamu Matoba

Proceedings Volume 11548, Optical Design and Testing X; 115480R (2020) https://doi.org/10.1117/12.2573722
Event: SPIE/COS Photonics Asia, 2020, Online Only

Abstract

The authors review three-dimensional (3D) trajectory of minute object by parallel phase-shifting digital holography. Parallel phase-shifting digital holography is a technique capable of single-shot recording of a complex amplitude distribution of object wave from a dynamic object. The authors constructed an inverted microscope based on parallel phase-shifting digital holography. The microscope consisted of a continuous-wave laser, a Mach–Zehnder interferometer, a polarization imaging camera, and a magnification optical system. A high-speed polarization imaging camera was employed to record motion picture of holograms of the dynamic specimen. Motion picture of the holograms of a minute alum crystal sinking down in the solution of alum was recorded by the microscope at the rate of 60 frames per seconds (FPS). Refocused images of the crystal were successfully obtained for all of the sinking time. The 3D trajectory of the crystal was derived from the refocused images. Also, the authors constructed an inverted and vertical microscope based on parallel phase-shifting digital holography. A Volvox swimming in a water as a living microbe was recorded by the microscope at the rate of 1000 FPS. The 3D trajectory of the microbe curvedly moving in the area of 500 μm × 500 μm × 500 μm was successfully demonstrated from the reconstructed images of the microbe.

Conference Presentation

Citation Download Citation

Yasuhiro Awatsuji, Junya Inamoto, Takahito Fukuda, Tomoyoshi Inoue, and Osamu Matoba "3D trajectory of minute object by parallel phase-shifting digital holographic microscope", Proc. SPIE 11548, Optical Design and Testing X, 115480R (10 October 2020); https://doi.org/10.1117/12.2573722

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