A Photo Of The Comet 12P Ponce-brook, Taken From My Bedroom Window. In The Middle Ages, Comets Were Regarded

Photo of the Pleiades (Messier 45) I took to test my new telescope. This is an open cluster of stars situated about 440 light years from earth, the brighter stars of the cluster are visible with the naked eye (around 5 to 10 stars visible depending of the light pollution, weather and eye accommodation do darkness). Unfortunately, the nebulosity, which I composed of dust clouds reflecting the light from the bright stars, is only visible in photos or with (relatively) large telescope. The cluster is about 100 million years old which is young (for an astronomical object), the more visible stars are hot blue giants, but many other, less visible, stars are present in the cluster. This cluster due to its high visibility has taken an important place in many cultures and mythologies.

(as a fun fact the name of M45 in Japanese is Subaru, and yes the car brand dose gets its name for this star cluster (which explains the logo of the brand))

This is the Crescent nebula it is located in the constellation Cygnus. This nebula is the result of the center star first becoming a red supergiant and ejecting some of its outer layers of gas in space, that gas cloud was then shaped into a bubble by the stellar winds emitted by the central star when it later turned into a Wolf–Rayet star.

The resulting gas bubble is heated and ionised by both the UV rays edited by the start and the stellar winds causing it to glow. Wolf-Rayet stars are the final step of some of the most massive stars before they explode into supernovas. In the case of the crescent nebula, the central star is expected to go supernova within the next few hundred thousand years (We probably still have quite a bit of time left before we observe that).

When a star goes supernova, some of the matter that composed the star is blasted off into space at extremely high velocities (up to 10% of the speed of light). This matter will then slowly (few hundred to a few tens of thousand of years) slow-down and cool-down to for me vast clouds of interstellar dust and gas. This second photo is a part of such a gas cloud, the veil nebula (the center of the western veil, also known as C34). In short, this is the photo of what's left of the corpse of a star that exploded about 10 to 20 thousand years ago.

Picture of the helix nebula / Caldwell 63, this one was a bit of a pain to take as this nebula stays relatively close to the horizon where I live, plus, due to the position of trees and building I only get 1h per night to take photos (had to use pictures from two different nights to get to about 2h of exposure).

This object is also a planetary nebula, like M27 I previously photographed, but it appears much bigger (about 2.5 times) in parte due to it being closer to earth (about 650 light-years compared to about 1360 light-years for the dumbbell nebula/M27).

This nebula has sometimes been referred to as ''the eye of god'' I think you can guess why.

The soon to be white dwarf star at the center of the nebula is (to me at least) a bit more visible in this picture than in the one of M27.

I took another photo of the crescent nebula (C27) this time using my monochrome camera and processed similarly to my photos of the veil nebula. The H-alpha photos really helped to enhance the ionised hydrogen present in this region of space (deep red clouds in the background). Still not completely satisfied with how the stars turned out (too much halo visible around them), could have been mitigated if the clouds had not come half way through the imaging session or if I do another night of imaging of this target.

This is the (Great) Orion nebula, also known as M42, it's a giant cloud of interstellar dust and gas. In it many new stars are currently forming, some of them also having planets forming around them.

It is one of the most visible nebula in the northern hemisphere, you just need a pair of binoculars to start observing it. I find such nebulae mesmerising, and wanted to share this image I took.

This is M51, also known as the Whirlpool Galaxy it is a pair a galaxy currently interacting together. If you look at the two arms of the spiral, you will see that the one on the left is somewhat deformed (near the other galaxy) this is due to the gravitational interaction between the two galaxies. Those interaction are also the reason why the left galaxy (NGC 5195) is this irregular. Some of the models have proposed that both galaxies have passed through each other at some point in the past. In the future both galaxie will slowly fuse together, but this will take at least a few hundred million years. Multiple other interacting galaxies also exist, such as the butterfly galaxies or the antenna galaxies.

This photo was supposed to be a test of my new equatorial mount but the result was WAY BETTER than expected so here you go (the post-treatment of the photos is not the best ever but I had to work with a limited amount a data). I will probably post more photos this summer since I now have access to better skys and a better mount than in Munich (If the weather complies).

There might not be sound in space, but there is quite a lot to listen to in the radio frequencies (especially when it comes to the planets of the solar system).

(the full article : https://www.jpl.nasa.gov/news/nasas-juno-spacecraft-enters-jupiters-magnetic-field ) Some ''similar'' sounds are also present on earth with for example the reverberation if radio waves emitted by lightning.

I'm trying to find a clean, concise, factual video of pulsar pulses but the top results on youtube are all fake clickbait bullshit. Where are the videos from professor so-and-so with 10 subscribers of simple black and white graphs.

(this page has what I'm looking for but afaik none of these videos are on youtube)

This is a picture of the hydrogen and dust cloud surrounding the star Sadr (the bright white dot near the center) also known as IC 1318. The bright parts represent hydrogen clouds and the dark parts dust clouds. Those types of clouds are the birthplace of new stars. This particular photo is in black and white because it was made by using a filter that lets only the light emitted by ionised hydrogen (the H alpha spectral line) pass through it. This increases the visibility of the hydrogen clouds. Since this light is at 656 nm, it would appear bright red if coloured. Together with H beta (496 nm) also from hydrogen and O III (around 500 nm) from oxygen both cyan in color, they represent the majority of light emitted by gas clouds. So in conclusion if you were able to see this gas cloud directly it would appear a reddish-magenta color (H alpha being the dominant emission).

Just got a week of clear weather will I had access to my telescope, managed to get a good amount of data, treatment will have to wait though (I have some exams in 2 weeks). In the meantime, here's a quick test I did with the horse head nebula.

This is a SHH composition (there is nearly no OIII emission in this nebula and I did bother imaging in this wavelength).

This is a photo of the Andromeda galaxy I took nearly 5 years ago. The dark parts of the galaxy are gigantic clouds of dust and gas in which no stars and planets are born. This galaxy is one the closest one to our own, and yet it's 2.55 million light years from us, It's composed of about 1000 billion stars, in a few billion years it will collide with our own galaxy.

The two lighter blotches around Andromeda are two satellite Galaxys that orbit around Andromeda and are also composed of millions of stars.

Those numbers are so big they start to get inconceivable, and that's only a small fraction of what exists out-there. We are not much in the grand scheme of the universe, but when you look at the night sky and the wonders of the universe you can feel at least for a little while that you're part of it.