Project:Digital Holographic Miocroscope: Difference between revisions
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=== Results === | === Results === | ||
<gallery widths="140" heights="140" perrow=" | <gallery widths="140" heights="140" perrow="2" caption="Quantitative phase image reconstructed from a cheek cell hologram."> | ||
File:Holmos cheek interference.png|Interference image captured by the camera | File:Holmos cheek interference.png|Interference image captured by the camera | ||
File:Holmos cheek fft.png|Fourier amplitude in which the information of interest is encoded in the frequencies around the first diffraction order | File:Holmos cheek fft.png|Fourier amplitude in which the information of interest is encoded in the frequencies around the first diffraction order | ||
Latest revision as of 16:03, 18 January 2024
| ProjectInfoBox Digital Holographic Microscope | |
|---|---|
| |
| Status: | being built |
| Initiator: | Patrick, Lennart |
Introduction
Holmos
This project is based on project Holmos (https://github.com/holmos-ipm) by Fraunhofer IPM.
Digital Holographic Microscopy
Wikipedia https://en.wikipedia.org/wiki/Digital_holographic_microscopy
This file explains the constraints in optical adjustment https://github.com/holmos-ipm/holmos-hardware/blob/master/instructions/optics_design.md
Assembly
Mounts for the optical components can be printed from files provided in the project repo. These can then be axially moved on metal beams. A Raspberry Pi camera is used for imaging. It is connected to a Raspberry Pi that performs the phase image reconstruction.
Usage
Key steps are
- Position the components according to https://github.com/holmos-ipm/holmos-hardware/blob/master/reference_assembly.py
- Adjust slide holder or objective to get a focused image from the objective beam only
- Direct the reference beam onto the camera sensor
Further practical instructions are given in https://github.com/holmos-ipm/holmos-hardware/blob/master/instructions/adjustment.md
In the Holmos Fourier amplitude view, the first diffraction order is selected as ROI. Then, the captured ("wrapped") phase image is saved on the hard drive. In a separate application, this image is then "unwrapped", e.g. black to white jumps due to the restricted value range of -π to π are removed.
Results
- Quantitative phase image reconstructed from a cheek cell hologram.
Interference image captured by the camera
Fourier amplitude in which the information of interest is encoded in the frequencies around the first diffraction order
Wrapped phase image reconstructed from the ROI in the Fast Fourier Transform
Unwrapped phase image
