You will find information about the coordinates of C/2019 Y4 (Atlas) in the Stellarium on your computer. My computer version of Stellarium is 0.19.3. A description of how to add a new object, to the Stellarium database can be found here.
Run Stellarium and go to the object search, click the magnifying glass – Search window (F3).
This is my first photographic attempt to M81. I’ve collected a lot of photographic material (about 10 hours) but also a lot of it I had to removed due to windy nights and after the first pre-selection I had about 8 hours of photographic material. At the stage of stacking, another 30% had to remove of material remaining based on quality algorithm, which I finally stack together. At the last photo session I noticed that so far, each time I focused the image not well enough.
The Bahtinov mask that I used from the previous telescope (Newton 8 “) and which I trusted on completely it turned out to be introducing the focusing error for my current 10” telescope. Image focusing was not what I could finally achieve. So, I’m waiting for good seeing and clear night sky to repeat of the photo session for M81, with the best possible image focus I can get.
Based on the available Bahtinov mask designs on the internet, a did prototype mask that was created on my 3D printer. It should theoretically fit for my 10 “telescope perfectly. We will see the effects of new astrophotography nights.
Due to the coma around the frame, where M82 is located, I will have to plan a separate photo session for M82. I have hope, that by then I will equip myself with the right coma corrector for my telescope, which will correct optical defects in the whole frame of my camera.
Some information about the galaxy itself – is a grand design spiral galaxy about 12 million light-years away, with a diameter of 90,000 light years, about half the size of the Milky Way, in the constellation Ursa Major. Due to its proximity to Earth, large size and active galactic nucleus (which harbors a 70 million M☉supermassive black hole), Messier 81 has been studied extensively by professional astronomers. The galaxy’s large size and relatively high brightness also makes it a popular target for amateur astronomers.
Below right, near the end of frame you can see NGC 3077 – is a small disrupted elliptical galaxy.
Below left from the frame you can see also M82 / NGC 3034 – Cigar Galaxy – a barred spiral galaxy. In the infrared range, it is the brightest galaxy in the sky. Messier 82 is a star storm galaxy, which means it has an intense process of forming new stars.
Source: https://en.wikipedia.org/wiki/Messier_81 , https://en.wikipedia.org/wiki/Messier_82 , https://en.wikipedia.org/wiki/NGC_3077
Photos taken on 19-22.4.2019 near Bielsko-Biała.
Equipment: Canon EOS 6D, O.O. CT-10 Newton 1200/250 [mm], F4.8, a weak coma corrector not perfectly fit for my telescope, NEQ6Pro.,
Usage of the PIPP program is relatively simple. It is recommended to follow the step rules – from left to right, going through all the tabs of the program, starting from the Source Files tab and ending with the Do Processing tab. We will go successively through the tabs, processing the Moon with an example light frames that I collected with my telescope. I will focus only on those options that I need to use. It is not my goal, to describe every available option, that’s why the manual is available on the PIPP page.
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I’ve never needed to add new space objects to Stellarium. There was no serious reason for me. Stellarium already have many of them in database. However, a need arise some time a go. I was hurry to learn how to add a new space object to the local Stellarium base, making small notes and procedures how to do this.
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