This is the repository for the Abbe Diffraction Experiment. It has two cameras where one captures the Fourier plane and the other acquires the image plane.
This experiment is also a part of the CourseBOX and the detailed alignment tutorial is found here.
- Capture Fourier Plane
- Capture Image Plane
- Low-cost acquisition
- Open-Source
- Compatible with Educational purposes
The Bill of Materials is always the most up-to-date version!
Name | Properties | Price | Link | # |
---|---|---|---|---|
Baseplate puzzle | - | 5€ | Base-plate | 14 |
Module: Raspberry Pi Camera | Having two cameras is optional since one camera can be moved between two planes! | 20 € | Raspi Camera Cube | 2 |
Module: Laser | - | ??€ | Laser | 1 |
Module: Lens | 2× 50 mm lens and 3× 100 mm lens | 10€ | Lens Cube | 5 |
Module: Beam splitter | - | 30€ | Beamsplitter Cube | 1 |
Module: Sample holder | - | ?€ | Sampleholder Cube | 2 |
Module: Sample Comb | optional but useful | ?€ | Sampleholder Cube | 1 |
Module: Circular Aperture | - | ?€ | Circular Aperture Cube | 1 |
Module: Rectangular Aperture | - | ?€ | Rectangular Aperture Cube | 1 |
To acquire the STL-files use the UC2-Configurator. The files themselves are in the RAW folder. The module can be built using injection-moulded (IM) or 3D-printed (3DP) cubes.
- Check out the RESOURCES for more information!
- 1x Raspberry Pi
- 1x camera splitter for Raspberry Pi
- 1x wired LED (blue)
- Aluminium Foil for the apertures/pinhole
- 1x Power Supply for Raspberry Pi
- long camera cables
For assembly instructions of the respective modules refer to the links in Modules for this setup.
A detailed alignment tutorial is found here.
Please have a look at our ImJoy Github-Repository for this Application.
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