README: update

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Sebastien Bourdeauducq 2019-11-16 22:09:08 +08:00
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@ -3,12 +3,13 @@ The Noptica Wavemeter
An open source laser wavemeter with NO expensive optics and NO machining. An open source laser wavemeter with NO expensive optics and NO machining.
Introduction Introduction
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Traveling Michelson wavemeters are one of the simplest designs that one can build. However, a high-resolution wavemeter requires the travel of a cube corner over a long range of motion. This motion needs to be smooth and vibration-free, which makes the mechanical design and construction rather difficult, and maintaining alignment over the whole range of travel is also challenging. Traveling Michelson wavemeters are one of the simplest designs that one can build. However, a high-resolution wavemeter requires the travel of a cube corner over a long range of motion. This motion needs to be smooth and vibration-free, which makes the mechanical design and construction rather difficult, and maintaining alignment over the whole range of travel is also challenging.
This design avoids those difficulties by restricting the range of motion to about a millimeter, which allows a low-cost voice coil to be used as actuator, such as an actual audio speaker with the corner cube glued in the middle. This design avoids those difficulties by restricting the range of motion to about a millimeter, which allows a low-cost voice coil to be used as actuator, such as an actual audio speaker with the corner cube glued in the middle. As a result, this wavemeter can be built entirely using low-cost off-the-shelf components.
While this reduced range of motion corresponds to a similar reduction in resolution in a traditional Michelson wavemeter, this design compensates by using the following techniques: While this reduced range of motion corresponds to a similar reduction in resolution in a traditional Michelson wavemeter, this design compensates by using the following techniques:
@ -16,6 +17,14 @@ While this reduced range of motion corresponds to a similar reduction in resolut
2. A DMI only reports the position of the moving cube corner at the MEAS edges, and those edges may not coincide with the fringes of the input laser. In this design, the position is then extrapolated using a low-pass IIR filter. The filter also attenuates other sources of noise, such as quantization noise. 2. A DMI only reports the position of the moving cube corner at the MEAS edges, and those edges may not coincide with the fringes of the input laser. In this design, the position is then extrapolated using a low-pass IIR filter. The filter also attenuates other sources of noise, such as quantization noise.
3. The scanning rate (around 50Hz) is higher than that of regular Michelson wavemeters, and many output measurements are averaged. 3. The scanning rate (around 50Hz) is higher than that of regular Michelson wavemeters, and many output measurements are averaged.
Recommended reading
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* http://www.repairfaq.org/sam/laserlia.htm#liaint2fl
* https://www.ph.unimelb.edu.au/~scholten/atomopt/publications/wavemeter_amjphys_vol67_p624_1999.pdf
Current status Current status
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