wimvb

The most extensive study of the weak structures surrounding the disc of M63 is the one linked to by @dciobota in his original post. The ring structure to the NE of the galaxy is undoubtetly a tidal stream due to a galaxy accretion event. Features to the South and SW are considered to be of uncertain sources, such as the extended disc and halo of M63 (spiral arms as Olly suggests), and possible (older?) accretion events. According to the study you linked to in your original post, tidal disruptions caused by older merger events get dimmer over time. The authors of the article speculate about the possibility that there may have been several merger events, with the more distinctive loop to the NE being the most recent. All in all, extremely cool physics, which makes yours a darn pretty picture, if you ask me.

You're welcome. That's fairly dark, and the 17 hours you spent on this image shows that your skies are good enough to catch tidal streams.

Galaxy collisions, which is what this is about, are very complicated processes. Detecting their products sets very high demands on our equipment, data acquisition and data processing. Even then, we do astrophotography at the very limit of what can be achieved with moderate amateur equipment. (You haven't mentioned what equipment was used to capture this image, but my guess is that it wasn't a multi-telescope rig situated in the New Mexico desert.) But, from what I've seen here so far, your result certainly looks real. Btw, to learn more about the science and theory of galaxy collisions, I can recommend this book. It helped me to get a better understanding of the subject. https://link.springer.com/book/10.1007/978-0-387-85371-0?utm_medium=referral&utm_source=google_books&utm_campaign=3_pier05_buy_print&utm_content=en_08082017

Please do join the conversation. Neutral hydrogen wouldn't show up. But it's usually not just gas that is ripped from a galaxy, but also stars and dust. It's just that radio telescopes are sensitive to it, while optical telescopes can pick up the star streams. Anyway, there's some very cool physics going on here.

Very impressive. I think that what you have is real. R.J. Gabany and David Martinez-Delgado are both authorities in the field of very deep field astrophotography. One tip: in order to see what is in an image, I usually invert the linear L and "superstretch" it by bringing in the black point and the white point until I can see all features, including ugly artefacts from imperfect flat calibration and such. Inverting the image makes it easier to see faint differences in signal.

I see a staircase mosaic int the making. "Not because they are easy, ..."

Nice! How dark are your skies? Officially I'm in a Bortle 5 zone, but with all the snow, it seems brighter than that. I'm looking forward to your 20 hours version. I still plan to add Ha to my image. 10 hours might do it, but probably more. Believe you me, it is.

I just saw your image on Astrobin; impressive. I'd like to image a gravitational lense at some point, but my sky conditions make it almost impossible. Where (above the clouds) do you image from?

I only have a few cheap SkyWatcher 2× barlows in my (also cheap) eyepiece kit. Shooting at bin 1 will be easier.

With my MN190/ ASI294MM combo, I always use bin2 at 0.95"/p, but I could try bin1. It's just that the files become so large (97 MB), and the camera specs are a lot poorer.

Very nice, especially with the addition of Oiii. In my own experience, I find that galaxy images gain a lot when narrow band is added. Unfortunately, I don't have room for an additional filter in my filter wheel.

Very nice, Göran. I had to look this one up. It must be a lot fainter than what your image suggests here. That's quite a stereo photon hoover that you have in your backyard.

Thank you, Steve. All those hours were needed, believe me. But Adam's still wins in some regards. Aperture, focal length, and seeing do still make a difference. I sometimes I wonder if a longer focal length and a finer imaging scale would give more detail. Not on paper, probably. But theory isn't everything.

@windjammer check this link https://pixinsight.com/examples/M31-Ha/index.html#Continuum_Subtraction

I found a thesis from 2014 which discussed the interaction of ngc 2460 and ic 2209. In it was an image of the pair, so I compared it to my result. It seems that I resolved details down to about 24 Mag/arcsec2. Not too bad for a simple 190MN in a Northern European backyard. Ludwig, J. A Survey of Dwarfs and Tidal Debris around Nearby Massive Galaxies – Deep Imaging with Medium-Sized Telescopes, 2014 http://www.ub.uni-heidelberg.de/archiv/17232

Thanks, all. @lrh, the problem with extended H-alpha is that it tends to produce pink galaxy cores, if not checked. But once I have enough H-alpha data, I'll figure out how to best incorporate it. My usual method is to use red continuum subtraction, which isolates the knots in galactic arms. @WolfieGlos, I think that I will need at least 10-15 hours of H-alpha. Fortunately nights are still long "up here". And yes, there is some ifn in this area, though not as strong as around M81/M82. The bright cloud on the left hand side is a combination of ifn and the glow of a nearby star.

ngc 2460 lies at a distance of about 70 million light years in the constellation Camelopardalis. The galaxy has an active nucleus and is believed to be interacting with its smaller neighbour ic 2209 (to the right). The arms of the larger galaxy are thin and extend very far, which makes this galaxy a very difficult target. It took 30 hours of exposure time to separate the galaxy arms and the surrounding dust from the noise. If the weather allows, I will try to add H-a to the galaxies. Interacting galaxies tend to have massive star formation, which the bright blue colour of ic 2209 also hints at. These galaxies usually have bright H-alpha clouds, where the star formation occurs, and more often than not, it pays off to spend a few hours on targets like this with a H-a filter in front of the camera. This is often overlooked by astrophotographers. Equipment: SkyWatcher 190MN on an AZ-EQ6 ZWO ASI294MM camera with Optolong LRGB filters Exposures: Luminance: 327 x 3 minutes RGB: 68 + 47 + 53 x 5 minutes

Some of my images from 2023 Equipment for all images: SkyWatcher 190MN on an AZ-EQ6 mount, and XWO 294MM camera Processing: PixInsight And IV, the satellite that wasn't M81 and M82 in HaRGB, a 2 panel mosaic Tadpoles in Ha pgc 12421, the truly hidden galaxy: ugc 12632

Apparently not (after reading this thread). (😉 implied) But back on track; the total integration time needed to achieve a certain quality level depends very much on light pollution, probably more than on equipment or anything else. This makes it very difficult to compare results with others, especially if you don’t know how and where those other images were taken.

After stacking, I combine the three master images into an RGB image, and process from there. If you don't use the RGB palette,(eg in narroeband processing) you may need to do a linear fit before combining the different masters. Linear fit puts the very lowest pixel value at 0, and the very highest pixel value at 1 (or 65000 in 16 bit), without disturbing the linear relationship between pixels.

Apparently, info is available on Touptek’s chinese website, but not on their english site. Google translate should solve that.

Let’s hope so. My guess is that it will. Touptek is commonly rebranded and doesn’t have enough market share to be able to pull off that ZWO stunt. But it means that they will be competing with StellarMate.

I saw this in a Swedish AP group on Facebook. It seems That Touptek is about to launch its own version of the ASIAIR. The device seems based on a raspberry pi and has power output ports. It comes with an app. https://www.facebook.com/NickEnterprise/posts/831715765633781?ref=embed_post

That's what the TypeCat script in pixinsight does. The annotation script can do this, supposedly, if magnitude is supplied in the catalogue. Although, I've never got it to work reliably.

Very nice indeed. Those galaxies that PI annotation script didn't pick up, don't show up in Simbad either. Btw, there is a PI script called TypeCat, by Hartmut Bornemann that can download Vizier/Simbad catalogues. https://www.skypixels.at/pixinsight_scripts.html