Hey Stefan,
Were you looking at the finished versions on the pointer info? If I use Gimp to look at, say, the far left star in 7000, the central core is 235, 251, 251. A tiny bit out is a bit of a ring at 241, 255, 255. Then as you move outward it starts fading of course. Now, those may not be pure glaring white of 255, 255, 255, but they are still pretty darn bright! You can use the color chooser, or even open a new screen and bucket fill it with either of those custom RGB combos to see just how close to white it really is (though indeed there is just the slightest blue tint!). It could also be relativistic and perceptual. Meaning, all by itself you might be able to discern that 241, 255, 255 is just a wee bit blue-ish. But, in the middle of an image with other (and darker) stuff around it, it probably looks like plain and purse bright white.
Maybe?
I did look at your images some more though and I think I follow what you are asking. I tried to look at a few of my own, but with only moderate success. I just have very limited time with the Newt so far, and am really a rank beginner trying to figure out collimation and whatnot. Not to mention I think I misaligned my vanes and so have to go fix that. Oh and have I mentioned that this thing has more light leaks than I can count!
So I am working on that too as all my images so far have had gruesome gradients.
That said, I think it's a couple things here. One is sort of the diffraction "halo" (just for Ivo!) around the star - the smaller spikes radiating out in all directions. Perhaps depending on seeing and atmosphere, that region dances around a bit, thus filling it in as sort of a ball around the star. We also know that ST resolves the stars very well via AutoDev, SVD, and so on, as much towards the pixel point source as possible. Compare that to some other techniques and software, where if you put them side by side you will see that the whole "ball" region, which in ST contains quite a bit of color, is bloated and white.
I took a stack of mine into Siril. Not that I really know what I am doing lol. But I ran the photo-color-thingy, then the gradient extraction (didn't work so well), then a asin, then the auto histogram stretch. It still looks passable and the stars are okay. But as said they are all bright white across the same expanse where ST has pinpointed the core and brought color to the diffracted area, which is much dimmer. ST's result also seems to help resolve some of the diffractive spiking, and you can also make out close doubles, which are lost in the bright bloat of the other software.
In some cases, I think it could also be the background behind a star (let's say reddish nebula) that makes that diffraction ball stand out much more.
Here's one of my recent acquisitions. Very much a work in progress and with all the errors I noted above, but as close to yours as I think I can get, Newt plus MPCC. The star Hatysa seems to have both a diffraction ball as well as a true halo, perhaps the glass of the MPCC? But by and large relatively tame against a dark sky background, and decent clarity. Compared to an excerpt of the same star with Siril.
I really don't have good data yet using the L-eNhance to see how that addition may alter what we are seeing around the stars -- other than the known coloring of course.
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- M42 241m ST8 4A like 2h 3C.jpg (508.59 KiB) Viewed 5663 times
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- M42 3pt5hr Siril Hatysa crop.jpg (46.73 KiB) Viewed 5663 times
EDIT: never mind all my theorizing. Didn't realize Ivo had answered while I was still typing!
