November 21, 2024

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M31, 32, & 110 – Galaxy Group in Andromeda

M31, 32, & 110 – Galaxy Group in Andromeda

Telescope: ES DHL Comet Hunter MN6 at f/4.8, Orion Atlas EQ-G

Camera: Baader modified Nikon D610

Filter: Orion Imaging Skyglow Filter

Guide scope: Williams Optics 50mm, ASI290MM mini, PHD

Exposure: (100 + 84)x120sec, ISO 400, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×3sec, LED Tracing Tablet covered with 3 layers of muslin

Average Light Pollution: Red zone, poor transparency

Lensed Sky Quality Meter: 18.4 mag/arc-sec^2

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Backyard Nikon, Nebulosity, Deep Sky Stacker, Photoshop

M31 is an iconic spiral in the constellation of Andromeda. Under dark skies it is easily visible to the naked eye and from urban skies it is an easy object for binoculars and small telescopes. At a distance of some 2 million light years, it is the farthest object visible to the naked eye. M31 also has several satellite galaxies, two of which are visible here. M32 is about as bright as the core of M31 and is located at the bottom center of this field. To the upper right is the much fainter M110. It is easy to be disappointed with the visual appearance of M31 since it is often shown in highly processed images such as the one I give here. However, the true appearance is quite beautiful in its own way. The core is relatively bright and almost stellar, surrounded by a soft luminous glow that I always think of as pearl.

I have always found that imaging the M31 group from my backyard and the associated processing to be surprisingly challenging due to its large size and the faint outer arms that tend to fade into my sky-glow. For this image I combined source images taken over two consecutive evenings. Unfortunately, the transparency on both evenings were relatively poor, but I’m happy with the result. This also does a good job showing the wide, flat field of the MN6 when used with a full frame camera.

M31 is currently well place high in the east at sunset.

M15 – Globular Cluster in Pegasus

M15 – Globular Cluster in Pegasus

Telescope: Light Switch 8 @ f/6.2 (Optec 0.62x focal reducer), altaz mode

Camera: Full Spectrum Modified Canon 600D, interval timer

Filter: GSO IR Blocking Filter

Guide scope: None

Exposure: 40x10sec, ISO 1600, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/10sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, fair transparency

Lensed Sky Quality Meter: 18.6

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Deep Sky Stacker, Nebulosity, Photoshop

M15, a bright, condensed globular cluster in a relatively lonely stretch of sky in Pegasus. It is one of the oldest known globular clusters with an estimated age of 13.2 billion years and the first globular cluster found to have a planetary nebula (Pease 1), one of only four planetary nebula associated with a globular cluster. M15 is also one of the most condensed globular cluster and at some point in the distant past it experienced a core collapse that may have heralded the formation of a black hole in its nucleus. This is supported by the fact the M15 is an x-ray source.

M15 is currently in high the south at sunset.

Waning Crescent Moon – 11/29/2021 6:25am EST

Waning Crescent Moon – 11/29/2021 6:25am EST

Telescope: Astro-Tech RC8 @ f/8, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Exposure: 64×1/800 sec, ISO 3200, saved as RAW

Seeing: Fair, 3/5

White Balance: Nebulosity Automatic

Software: Backyard EOS, Registax, Nebulosity, Photoshop

This was a quick peek at the moon taken right before covering my gear after a long night of imaging. The setting sun is setting over Sinus Iridum near the moon’s northern limb and you can glimpse Mare Orientale just peeking over the southwestern limb. Mare Orientale is one of my favorite lunar features even though it is often hidden just out of view on the moon’s backside, though you can often see the impact basin’s ring mountains in profile against the black sky. This is also the location of the famous “bull’s eye” picture taken by Lunar Orbiter 4 in 1967.

Comet C/2021 A (Leonard) 11/29/2021 03h53m EST

Comet C/2021 A (Leonard) 11/29/2021 03h53m EST

Telescope: Astro-Tech 8” f/8 Ritchey-Chretien, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 36x120sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: Synthetic

Average Light Pollution: Red zone, Bortle 8, poor transparency, moonlight, haze

Lensed Sky Quality Meter: 18.4

Stacking: Average

White Balance: Nebulosity Automatic

Software: Backyard EOS, Nebulosity, Photoshop

Comet C/2021 A Leonard is a faint comet currently crossing Coma Berenices in the morning sky. When this image was taken the comet was glowing with a total integrated magnitude of 7.1 and was 53.8 million miles away above the Earth’s northern hemisphere. The trailing stars show the apparent motion of the comet over the period of 140 minutes.

Comet Leonard is currently well placed high in the northeast at dawn.

M13 – Globular Cluster in Hercules

M13 – Globular Cluster in Hercules

Telescope: Light Switch 8 @ f/6.2 (Optec 0.62x focal reducer), altaz mode

Camera: Full Spectrum Modified Canon 600D, interval timer

Filter: GSO IR Blocking Filter

Guide scope: None

Exposure: 31x10sec, ISO 1600, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/10sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, fair transparency

Lensed Sky Quality Meter: 18.4

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Deep Sky Stacker, Nebulosity, Photoshop

Globular clusters are relics of the ancient universe and M13 is no exception with an estimated age of 12 billion years. Their great age is an indication of their unusual stability. One consequence of this stability is that any heavy elements that their stars have made remains buried in their cores and the cluster itself has little, if any, interstellar dust. M13 is one of the few globular clusters with a dust-like feature that can be seen as a dark lane extending to the upper left of the core. It is possible that this dust lane is an independent object that just happens to be in front of the cluster.

M13 is currently in the northwest at sunset.

M3 – Globular Cluster Canes Venatici

M3 – Globular Cluster Canes Venatici

Telescope: Light Switch 8 @ f/6.2 (Optec 0.62x focal reducer), altaz mode

Camera: Full Spectrum Modified Canon 600D, interval timer

Filter: GSO IR Blocking Filter

Guide scope: None

Exposure: 29x10sec, ISO 1600, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/10sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, poor transparency, low altitude

Lensed Sky Quality Meter: 17.8

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Deep Sky Stacker, Nebulosity, Photoshop

M3 is a beautiful example of a globular cluster in a relatively lonely stretch of sky. The cluster is a member of the galactic halo and spends much of its time orbiting well outside the plane of the galaxy. It is presently 33,000 light years away from us, 40,000 light years from the galactic core, and 33,000 light years ‘above’ the galactic plane. Home to about 500,000 stars, M3 is relatively young as globular clusters go with an estimated age of 8 billion years.

This is one of a series of images that I have been taking to explore using relatively simple equipment and techniques and the firt image taken with my Light Switch 8 at f/6.2 using my modified 600D. The LS8 did okay in its native f/10 configuration, but reducing the focal length a bit made the tracking a bit more forgiving. This late-season image of M3 is a good example of how nice it is having the option of using a simple setup. With my usual imaging gear I’m limited to imaging object on the east side of the meridian. However, with this simple altaz system there’s nothing to align, I just pluck it down out in the middle of my backyard where I have access to more of the sky and there’s no meridian flip to worry about. In this case I caught M3 about as late as I could with it getting low in the west as twilight ended. Another aspect of using a simple system is that I can cover a lot of territory fairly quickly. Here I am on the doorstep of December and I’m still processing images from September!

Fun stuff.

Comet C/2021 A (Leonard) 11/24/2021 05h30m EST

Comet C/2021 A (Leonard) 11/24/2021 05h30m EST

Telescope: Astro-Tech 8” f/8 Ritchey-Chretien, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 1x120sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: Synthetic

Average Light Pollution: Red zone, Bortle 8, poor transparency, moonlight

Lensed Sky Quality Meter: 18.2

Stacking: None

White Balance: Nebulosity Automatic

Software: Backyard EOS, Nebulosity, Photoshop

Comet C/2021 A Leonard is a faint comet currently crossing Canes Venatici in the morning sky. When this image was taken the comet was passing between NGC 4631 (The Whale and Pup) to the upper right and NGC 4656 (The Hockey Stick) to the lower left. I had to go real careful with the processing on this image as I haven’t quite figured out how to freeze the comet’s motion against the background sky so this is a single sub.

Comet Leonard is currently well placed high in the northeast at dawn glowing with a total integrated magnitude of 8.2 and is 73.8 million miles away above the Earth’s northern hemisphere.

Comet C/2021 A Leonard 11/23/2021 05h35m EST

Comet C/2021 A Leonard 11/23/2021 05h35m EST

Telescope: Astro-Tech 8” f/8 Ritchey-Chretien, Orion Atlas EQ-G

Camera: Canon EOS Ra, Baader Mk III MPCC

Filter: Orion Imaging Skyglow Filter

Guide scope: Astro-Tech 60mm, Starlight Xpress Super Star, PHD2

Exposure: 10x120sec, ISO 800, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/20ec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, fair transparency, moonlight

Lensed Sky Quality Meter: 18.2

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Backyard EOS, Deep Sky Stacker, Nebulosity, Photoshop

Comet C/2021 A Leonard is a faint comet currently crossing Canes Venatici in the morning sky. When this image was taken the comet was glowing with a total integrated magnitude of 8.2 and was 73.8 million miles away above the Earth’s northern hemisphere. The trailing stars show the apparent motion of the comet over the period of 40 minutes.

Comet Leonard is currently well placed high in the northeast at dawn.

M56 – Globular Cluster in Lyra

M56 – Globular Cluster in Lyra

Telescope: Light Switch 8 @ f/10, altaz mode

Camera: Stock Canon 600D, interval timer

Filter: GSO IR Blocking Filter

Guide scope: None

Exposure: 23x10sec, ISO 3200, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/10sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, poor transparency, windy

Lensed Sky Quality Meter: 18.4

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Deep Sky Stacker, Nebulosity, Photoshop

M56 is a relatively small, dense globular cluster that tends to get a bit lost against the background Milky Way. I have always found this to be a somewhat challenging object visually (at least from my backyard) but it blossoms beautifully with a large telescope.

This is one of a series of images that I have been taking to explore using relatively simple equipment and techniques and the last image taken with my Light Switch 8 at its native f/10 focal length using my stock 600D. I increased the gain from my usual ISO 1600 to ISO 3200 for this one and it was nice to see how the healthy dose of natural dithering smoothed out the noise fairly well. Simple is good.

M56 is currently in the west at sunset.

M27 – Planetary Nebula in Vulpecula

M27 – Planetary Nebula in Vulpecula

Telescope: Light Switch 8 @ f/10, altaz mode

Camera: Stock Canon 600D, interval timer

Filter: GSO IR Blocking Filter

Guide scope: None

Exposure: 17x10sec + 20x15sec, ISO 1600, saved as RAW

Darks: Internal (Long Exposure Noise Reduction On)

Flats: 32×1/25sec, Tee shirt flats taken at dusk

Average Light Pollution: Red zone, Bortle 8, poor transparency, windy

Lensed Sky Quality Meter: 18.4

Stacking: Mean with a 1-sigma clip.

White Balance: Nebulosity Automatic

Software: Deep Sky Stacker, Nebulosity, Photoshop

M27, the Dumbbell nebula, is an expanding shell of gas that was ejected from a sun-like star as it exhausted its hydrogen fuel. Swollen into a red giant, the star shed its outer shell while its core collapsed into a white dwarf. Fierce UV radiation from the collapsed core sets the surrounds gas aglow with the blue/green light of doubly ionized oxygen. The diameter of the nebula is about 1 light-year with an estimated age of 9,800 years. Located between Sagitta and Cygnus, M27 is fairly easy to find with a small telescope. Visually, it shows two lobes connected by a neck of nebulosity, giving the nebula its characteristic dumbbell shape.

This is one of a series of images that I have been taking to explore using relatively simple equipment and techniques. This is one of a short series of images taken with my Light Switch 8 at its native f/10 focal length. It was a bit windy while I was taking this image set so I combined images taken with 10 second and 15 second exposures to get as much as I could. This is a good example of how every image doesn’t have to be an over-the-top Hubble runner up. This is more about being able to see deepsky objects from my backyard with fairly basic kit.

M27 is currently in the southwest at sunset.