http://movainternational.com/ is the weblink to very original globes which move around with no use of cords, no batteries ... only powered by light and earth magnetic field. Different sizes are available with both space globes as our own earth. I saw those globes the first time in Paris, "maison de l'astronomie" and also in Chicago, Adler Planetarium. I would say ... great gift.Friday, October 21, 2016
Mova Globes
http://movainternational.com/ is the weblink to very original globes which move around with no use of cords, no batteries ... only powered by light and earth magnetic field. Different sizes are available with both space globes as our own earth. I saw those globes the first time in Paris, "maison de l'astronomie" and also in Chicago, Adler Planetarium. I would say ... great gift.
Sunday, October 16, 2016
Chromatic Aberration CaF2 material - FCD100 Hoya & FPL53 Ohara
As lenses (like in refractors) have different refractrive properties depending the wavelenghts and the fact that the focal length of a lens is depending the refractiveness results in colors not focussing into a one single point behind the lens. This means that colors will shift in pictures (color glow around moon, planets) which we call chromatic abberation.
Over time refractors became better with double lenses (achromatic lens; the lenses compensate for two wavelengths) and triple lenses (apochromatic lens, lenses compensate for three wavelenghts). For the latter one the flint lens is made of ED glass. This is glass with a very low dispersion properties or high refraction indeces. Typically CaF2 is favorite but expensive, heavy and difficult to manufacture. Therefor the use of other fluorite glasses are used. Currently the use of FPL53(Ohara, JP) and FCD100 (Hoya, JP) are common in small f/ratio refractors and closing the gap with CaF2 glass.
The table below shows that the bigger the F/ratio the lower the chromatic aberration.
Over time refractors became better with double lenses (achromatic lens; the lenses compensate for two wavelengths) and triple lenses (apochromatic lens, lenses compensate for three wavelenghts). For the latter one the flint lens is made of ED glass. This is glass with a very low dispersion properties or high refraction indeces. Typically CaF2 is favorite but expensive, heavy and difficult to manufacture. Therefor the use of other fluorite glasses are used. Currently the use of FPL53(Ohara, JP) and FCD100 (Hoya, JP) are common in small f/ratio refractors and closing the gap with CaF2 glass.
The table below shows that the bigger the F/ratio the lower the chromatic aberration.
Looking into the data, FCD from Hoya has a slightly better refractive indices then FPL53
Some more pictures using DLSR on PST 40
Prominences using DSLR on PST 40
I was able to use my DSLR Nikon D60 on the PST 40 for taking pictures. Uptill today I could only take afocal pictures with my iPhone but they are always too bringht are not in focus. Installing extra extentions on the zoom lens 8-24mm I could bring the sun in focal of the DSLR.
Trial and error to have the best view and sharpness and then editing using CS4. The result shows nice prominences on top and below of the picture.
Saturday, October 15, 2016
Full Moon with iPhone 6
Full moon picture taken afocal with iPhone 6 on TAL200K using 25mm oculair. Picture edited using CS4.
Sun with airplane and sunspots AR2600 & 2602
This afternoon the temperature increased and the sun was shining again after some rain the last days. The sky was not perfect due to high clouds but still I was able to make some pictures. One of them showed a combination of sunspots AR2600, AR2602 and an airplane. The picture was taken with my Nikon D60 using TAL200K and slightly modified using CS4.
Sunday, October 9, 2016
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