Hi
Using the 200mm focal length and 24.5mm diameter lens with the PST etalon pushed forward to cope with back-focus issues may not be able to be moved far enough forward.
You could use a shorter focal length pair say 100mm nearer to the PST etalon and you will just be using 10mm of the etalon aperture rather than 20mm. A 4x better ERF will keep the heat load to be the same.
I have tried a collimated beam on the 127mm Triplet with my Prominence Quark and it seems to work just fine.
I have a Prominence Quark which has mica faults in one sector so I thought of a way to reduce the scatter by using only a part of the etalon.
Using a 60mm focal length lens pair on my 127mm F7.5 gives me a 8mm collimated beam. Setting the 1.25" eyepiece holder 5mm off axis means I can rotate the Quark in it to pick out a clear 8mm circle around the edge. Or 6mm with my Mak180 F10. I will add a 7nm Baader filter to the Quark, after the front 35nm Baader and Beloptik KG3/IR/UV ERFs to reduce the heat load on the etalon.
Cheers. Andrew.
Back-focus issues with a collimated etalon
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Re: Back-focus issues with a collimated etalon
The only thing I would say is the less of the etalon that is used the smaller the sweet spot....
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Re: Back-focus issues with a collimated etalon
Hi
Surely the size of the angle of the sweet spot will not change?
The collimator merely changes a converging beam with phase encoded information into a parallel beam with location encoded information and then back into a converging beam with phase encoded information at the same F No so the apparent image will have the same solid angle and the sweet spot be as before?
In professional optics collimators are used all the time.
Cheers. Andrew.
Surely the size of the angle of the sweet spot will not change?
The collimator merely changes a converging beam with phase encoded information into a parallel beam with location encoded information and then back into a converging beam with phase encoded information at the same F No so the apparent image will have the same solid angle and the sweet spot be as before?
In professional optics collimators are used all the time.
Cheers. Andrew.
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Re: Back-focus issues with a collimated etalon
In a collimated system the size of the sweet spot is a ratio of free aperture of the scope to the used aperture of the etalon. As the aperture gets bigger, or the etalon smaller then the size of the sweet spot gets smaller too. Increase the size of the etalon or reduce the size of the free aperture of the scope and the sweet spot will be larger.
Mark
Mark
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