At Least Viruses Are A Distinct Physical Thing, Prion On The Other Hand Are Just Fucked Up Geometry.

I was able to see and take pictures of the comet C2023/A3 (Tsuchinshan-ATLAS) ! This comet will be visible in the night sky probably for the next week or two, it's currently visible both with a pair of binoculars and with the naked eye. Since it's visible very early after sunset, it's a bit difficult to spot for now, but in the coming days it's will gradually be visible later in the night and thus easier to observe.

This comet is one of the brightest in the last few years so it should be quite easy to observe.

I hope you all get a chance to see it, it's magnificent

Photo a few galaxies, M81 / bode's galaxy (centre), M82/the cigar galaxy (left) and NGC 3077 (right)

In addition to those three galaxies, there are many other (much) smaller ones hidden among the stars (a few examples):

The red-ish filament visible around M82 are ionised hydrogen gas and dust pushed outwards by galactic-superwind

Those are tough to be a combination of solar winds created by young stars and the shockwaves of frequent supernovas. They mostly occur in starburst galaxy a type of galaxies that experience heightened stars formation generally due to recent gravitational interaction with other galaxies, in the case of M82 the trigger is most likely its neighbour M81.

(Image taken using a CarbonStar 150/600 newtonian telescope with a 0.95 coma corrector, ZWO ASI294 monochrome camera ZWO LRGB filters and Baader 6.5nm Ha filter. 12x180s image for each colour filter (RGB), 6x300s for the Ha filter, total imaging time 2h 54min, stacking and processing done in PixInsight.)

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))

Photo of NGC 7000 / the North American nebula (southern part), the bright star on the top left corner is ξ Cygni. Might rework it later since this one still has a bit too much gradient/haze due to the full moon when I took the photos. In most cases, emission nebula are the result of gas clouds being ionised by the high energy UV radiation coming from very Hot (and often massive) stars/star cluster. In the case of NGC 7000 the star(s) responsible for most of the ionisation was an unknown for quite a long time, it is only in 2004 that the star responsible for the ionisation was located. This star (actually a binary system according to later publication) known as J205551.3+435225 is located behind the dark region of the nebula (bottom right corner of the photo) which explains why it was only recently identified.

(My best guess of the position of J205551.3+435225 in my picture according to what I can find in the original publication and in the SIMBAD database)

One last thing, that star was later nicknamed Bajamar Star, which comes from the original Spanish name for the Bahamas island.

Picture of M27, the Dumbbell nebula (aka the Apple Core Nebula), I took at the end of last month. This is a planetary nebula, it's the result of a star similar to our sun, that had turned into a red giant at the end of its life, ejecting its outer layer of gas and plasma into space. A planetary nebula is probably a relatively ''short'' phenomena, lasting around 10 000 years. Once the central star has ejected most of its hydrogen/helium and that the nuclear fusion in it has stopped, the nebula will start to cool down and disappear while the star turns into a white dwarf. Planetary nebula have an important role in redistributing some of the matter from dead/dying stars in the interstellar medium.

I personally think that photo is good, but some of the more faint external structures are barely visible, might take another picture of it and/or more photos to stack later in the month.

“the arts and sciences are completely separate fields that should be pitted against each other” the overlap of the arts and sciences make up our entire perceivable reality they r fucking on the couch

Photos of the two major components of the veil nebula, the first one is the eastern veil aka C33 and the second one (the one with the star in the middle) the western veil aka C34. Those are part of a supernova remnant (left over gas and dust from a supernova), their colour are due mainly to two gases present inside. The blue/green colour comes mostly from oxygen (as OIII emission around 500nm by doubly ionised oxygen) and a little bit from hydrogen (as H beta emission at 486nm) where as the red comes nearly completely from hydrogen (as H alpha emission at 656nm).

The first photo is about 2.5 hours of exposure (30x3 min for RGB + 10x5 min for H alpha) and the second one about 3 hours (36x3 min for RGB + 16x5 min for H alpha).

The additional photos taken in hydrogen alpha are added to the normal RGB photos to intensify the colour and visibility of the hydrogen gas (it doesn't show well enough with standard RGB in part due to the lower amount of light it emits an in part due to the sensor's response itself) Here is a version of C33 (eastern veil) with the stars removed as my friends were very impressed by it, hope you like it too.

Friendly reminder that CRT TVs were basically a particule accelerator you had in your living room. They used power supple capable of delivering tens if not hundreds of thousands of volts, to accelerate the electron that were quite literally being boiled of a glowing piece of metal.

They sometime used a lead infused glass as the front plate to limite if not eliminate the small amount of X-ray they emitted towards you.

They had to be heavy because of the thickness of the glass needed to resist the distance of pressure between the atmosphere and extremely low vacuum inside the vacuum tube. It's that difference of pressure that would result in them exploding in a shower of glass shrapnell if the tube was broken.

Perseus double cluster, had still some time left at the end of the night after the main sequence of photos and before dawn so I took the opportunity to capture about 25 minutes of photos of the double cluster. This is a pair of open clusters of stars (NGC 884 left and NGC 869 right), both are composed mostly of young blue giants and a few red giants in NGC 884. Both clusters have most likely formed from a single gas cloud and are only separated by a few hundred light years. This pair of cluster is relatively bright and can be viewed with the naked eye or a pair of binoculars in dark locations, in those cases, the clusters appear as nebulous region, with a couple of stars resolved with binoculars.