Submissions: 2023 January
Re: Submissions: 2023 January
I've completed the 2023 first full cycle of the moon phases, in thermal wavelength (8-14um).
Here are the animations:
White hot
https://www.youtube.com/embed/WQ21lNZH6dM
Rainbow palette
https://www.youtube.com/embed/gJsHwTlURN8
Here are the animations:
White hot
https://www.youtube.com/embed/WQ21lNZH6dM
Rainbow palette
https://www.youtube.com/embed/gJsHwTlURN8
Re: Submissions: 2023 January
Andromeda
https://flic.kr/p/2oegdWS
On the 10/08/2022 (10th Aug 2022) I took this picture of Andromeda in the Caingorms in Scotland which was at Bortle 2 skies. The moon phase was at 96% (Waxing Gibbous Phase).
I took this image using my setup, Canon 5D Mkiii (stock), Rokinon 135mm @ F2 and Star Adventurer 2i Star Tracker.
This was the second time I ever tried Astrophotography, and the first time using a star tracker and suitable lens.
On the 10/08/2022 (10th Aug 2022) I took this picture of Andromeda in the Caingorms in Scotland which was at Bortle 2 skies. The moon phase was at 96% (Waxing Gibbous Phase).
I took this image using my setup, Canon 5D Mkiii (stock), Rokinon 135mm @ F2 and Star Adventurer 2i Star Tracker.
This was the second time I ever tried Astrophotography, and the first time using a star tracker and suitable lens.
Last edited by bystander on Mon Jan 30, 2023 2:20 pm, edited 1 time in total.
Reason: all <img> type tags require image urls not page urls
Reason: all <img> type tags require image urls not page urls
Re: Submissions: 2023 January
Hi !
Here is the comet C/2022 E3 (ZTF) with a legend about the its anatomy
Taken in January 22 from France.
Author : Julien Dufour
Full version here : https://www.astrobin.com/full/daoorc/E/
https://cdn.astrobin.com/thumbs/KLSGj0e ... TZ0INm.jpg
Here is the comet C/2022 E3 (ZTF) with a legend about the its anatomy
Taken in January 22 from France.
Author : Julien Dufour
Full version here : https://www.astrobin.com/full/daoorc/E/
https://cdn.astrobin.com/thumbs/KLSGj0e ... TZ0INm.jpg
Last edited by bystander on Mon Jan 30, 2023 3:29 pm, edited 1 time in total.
Reason: Please, no hot links to images > 500 kb. Substituted smaller image.
Reason: Please, no hot links to images > 500 kb. Substituted smaller image.
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Re: Submissions: 2023 January
Comet C/2022 E3 ZTF from Grand Mesa Observatory on 1/22/2023 by Transient Astronomer, on Flickr
Image Credit and Copyright Grand Mesa Observatory www.grandmesaobservatory.com Tom Masterson/Terry Hancock/Kim Quick
Image Credit and Copyright Grand Mesa Observatory www.grandmesaobservatory.com Tom Masterson/Terry Hancock/Kim Quick
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Re: Submissions: 2023 January
Comet C/2022 E3 ZTF from Capanne di Sillano,Tuscany, Italy on January 29th 2023
C/2022 E3 ZTF - January 29th 2023 by Alessandro Carrozzi, su Flickr
C/2022 E3 ZTF - January 29th 2023 by Alessandro Carrozzi, su Flickr
Re: Submissions: 2023 January
The Boogeyman Nebula to M78 Mosaic
Been on this one for a few months, nearly 150 hours of total exposure time.
Copyright: Daniel Watt https://www.astrobin.com/users/danwatt/
High Resolution: https://astrob.in/full/gbgp92/0/?real=
Technical Details:
8" f3.9 Newt with Starizona .75x reducer
QHY268M
Astronomik Deep Sky RGB Filters + L2 for Lum
Orion Atlas EQ-G
Processed in Pixinsight and Photoshop
RGB ~130x300"
L 227x300"
Ha 584 x 300"
Been on this one for a few months, nearly 150 hours of total exposure time.
Copyright: Daniel Watt https://www.astrobin.com/users/danwatt/
High Resolution: https://astrob.in/full/gbgp92/0/?real=
Technical Details:
8" f3.9 Newt with Starizona .75x reducer
QHY268M
Astronomik Deep Sky RGB Filters + L2 for Lum
Orion Atlas EQ-G
Processed in Pixinsight and Photoshop
RGB ~130x300"
L 227x300"
Ha 584 x 300"
Re: Submissions: 2023 January
This image is an experiment I did using data from the GONG h-alpha network.
I wanted to show the development of some solar filaments that I also imaged myself in July last year and that showed a very nice development in the days they were visible.
I gathered data from the period from 4th of July until 16th of July with 2 day intervals from the GONG network and processed them in such way that I overlayed the images showing the filaments as they rotated with the sun during this period.
Clearly can be seen how the filament changed on the southern hemisphere and you can even see it as a prominence when it rotated away from Earth. On the northern hemisphere there was a large filament that ruptured during this period and lifted off, which can be seen as it suddenly dissappeared.
I like the result and it gives a nice idea of the activity of the sun in this period.
Credit: GONG data were acquired by instruments operated by NISP/NSO/AURA/NSF with contribution from NOAA. Processing: André van der Hoeven (www.astro-photo.nl)
I wanted to show the development of some solar filaments that I also imaged myself in July last year and that showed a very nice development in the days they were visible.
I gathered data from the period from 4th of July until 16th of July with 2 day intervals from the GONG network and processed them in such way that I overlayed the images showing the filaments as they rotated with the sun during this period.
Clearly can be seen how the filament changed on the southern hemisphere and you can even see it as a prominence when it rotated away from Earth. On the northern hemisphere there was a large filament that ruptured during this period and lifted off, which can be seen as it suddenly dissappeared.
I like the result and it gives a nice idea of the activity of the sun in this period.
Credit: GONG data were acquired by instruments operated by NISP/NSO/AURA/NSF with contribution from NOAA. Processing: André van der Hoeven (www.astro-photo.nl)
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Re: Submissions: 2023 January
A lonely wanderer among the constellations
Copyright: Rafael Schmall
https://www.astrobin.com/users/Rafeee/
I made such a wide-angle shot of the sky, in which the comet is visible and the two iconic northern constellations are also on it. I photographed this comet in several focal points, but I liked this one the best.
Image Details:
Equipment: Canon EOS6D, Rokinon 24mm f/1.4, SkyWatcher Star-Adventurer
Exif data: 10x75sec, ISO3200, f4 + 5x75sec, ISO3200, f4 (with diffusion filter)
Processing: Lightroom, Photoshop
Location: Hungary, Zselic Starry Sky Park, Zselic Park of Stars
Copyright: Rafael Schmall
https://www.astrobin.com/users/Rafeee/
I made such a wide-angle shot of the sky, in which the comet is visible and the two iconic northern constellations are also on it. I photographed this comet in several focal points, but I liked this one the best.
Image Details:
Equipment: Canon EOS6D, Rokinon 24mm f/1.4, SkyWatcher Star-Adventurer
Exif data: 10x75sec, ISO3200, f4 + 5x75sec, ISO3200, f4 (with diffusion filter)
Processing: Lightroom, Photoshop
Location: Hungary, Zselic Starry Sky Park, Zselic Park of Stars
Re: Submissions: 2023 January
Mars Approaches the Moon, January 30, 2023
Mars approaches the Moon, JAN-30-2023 by Tom Glenn, on Flickr
This image shows Mars and the Moon, approximately 14 minutes before Mars disappeared behind the lunar night side. I captured this image last night, through intermittent rain and clouds, from San Diego, CA. The image is a stack of 500 frames, captured in rapid succession at 20:20 local time (PST). Aside from the stacking, there is no compositing, no repositioning of elements within the frame, and no selective alterations to the exposure (global gamma and curves were applied).
The large crater along the terminator is Copernicus (diameter 96km, depth 3.8km). With Mars receding after opposition and currently subtending only 10" apparent size, Copernicus appears approximately 5x the diameter of Mars in this image. The large crater near the top of the image is Plato, which has a similar diameter to Copernicus, but is much older and has very different characteristics.
Image details:
January 30, 2023, 20:20 PST, San Diego, CA
500 frames stacked
6" f/6 Newtonian telescope, focal length 916mm
Baader MPCC Mark III coma corrector
ASI678mc camera, 5ms exposure, 11% gain
Mars approaches the Moon, JAN-30-2023 by Tom Glenn, on Flickr
This image shows Mars and the Moon, approximately 14 minutes before Mars disappeared behind the lunar night side. I captured this image last night, through intermittent rain and clouds, from San Diego, CA. The image is a stack of 500 frames, captured in rapid succession at 20:20 local time (PST). Aside from the stacking, there is no compositing, no repositioning of elements within the frame, and no selective alterations to the exposure (global gamma and curves were applied).
The large crater along the terminator is Copernicus (diameter 96km, depth 3.8km). With Mars receding after opposition and currently subtending only 10" apparent size, Copernicus appears approximately 5x the diameter of Mars in this image. The large crater near the top of the image is Plato, which has a similar diameter to Copernicus, but is much older and has very different characteristics.
Image details:
January 30, 2023, 20:20 PST, San Diego, CA
500 frames stacked
6" f/6 Newtonian telescope, focal length 916mm
Baader MPCC Mark III coma corrector
ASI678mc camera, 5ms exposure, 11% gain
Last edited by Tom Glenn on Wed Feb 01, 2023 4:58 pm, edited 1 time in total.
Re: Submissions: 2023 January
Link to fulll size image : https://astrob.in/jus12q/0/
Hi there. Here it is ! The "naked" version of the dark nebula LDN 1622.
This is a starless version of the nebula which features faint details and beautiful dust and clouds all over. The monochrome rendering is naturally occurring due to the use of a H-α (hydrogen-alpha) narrowband filter at 656 nm (nanometers). I have always been very interested in "starless" renderings because they offer quite another appealing view.
Data credit : Aygen Erkaslan
Date : Jan 2023.
Location : own remote observatory, Spain
Scope : Takahashi TOA 130
Camera: ZWO ASI 6200 mm pro
Filter : H-a 3nm filter
Intégration time : 9H
Hi there. Here it is ! The "naked" version of the dark nebula LDN 1622.
This is a starless version of the nebula which features faint details and beautiful dust and clouds all over. The monochrome rendering is naturally occurring due to the use of a H-α (hydrogen-alpha) narrowband filter at 656 nm (nanometers). I have always been very interested in "starless" renderings because they offer quite another appealing view.
Data credit : Aygen Erkaslan
Date : Jan 2023.
Location : own remote observatory, Spain
Scope : Takahashi TOA 130
Camera: ZWO ASI 6200 mm pro
Filter : H-a 3nm filter
Intégration time : 9H
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Re: Submissions: 2023 January
C/2022 E3 ZTF and Meteor
Photo description:
At 2:58 am on January 31, 2023, on a high mountain at an altitude of 3,000 meters, a brightly colored meteor just crossed the comet ZTF. It's so beautiful!
Equipment Details: Canon R7 with Tamron SP 24-70mm F2.8 Lens
Post-processing Details:
Using Sequator156 to superimpose 40 consecutive photos without tracking.
Single photo: focal length 70mm, f/2.8, exposure 13.8s, ISO16000
Total exposure time: 13.8s*40
Location : Mount Hehuan, Nantou, Taiwan
Time: January 31, 2023 at 2:58 am
Photographer : Meiying Lee (李美英)
Photo description:
At 2:58 am on January 31, 2023, on a high mountain at an altitude of 3,000 meters, a brightly colored meteor just crossed the comet ZTF. It's so beautiful!
Equipment Details: Canon R7 with Tamron SP 24-70mm F2.8 Lens
Post-processing Details:
Using Sequator156 to superimpose 40 consecutive photos without tracking.
Single photo: focal length 70mm, f/2.8, exposure 13.8s, ISO16000
Total exposure time: 13.8s*40
Location : Mount Hehuan, Nantou, Taiwan
Time: January 31, 2023 at 2:58 am
Photographer : Meiying Lee (李美英)
Re: Submissions: 2023 January
"THE GREAT ORION NEBULA"
- Deepsky 750mm LSHO Stars: RGB
- Constellation Orionis
Another refreshing elaboration of the great Orion Nebula - and it's far from over ^^
Let the creativity run free, regarding the coloring, I call it "Fresh Banana Look", it somehow reminds me of an ice cream dessert in summer *g*
Narrowband filters for hAlpha, SII and OIII were used, the star colors come from RGB recordings. The colors were selectively adjusted by me, so we're pretty much in the "pretty pictures" range here But it's also fun every now and then
The Orion Nebula (M42 or NGC 1976) is an emission nebula in the constellation of Orion. Due to the high apparent brightness of its center above the 4th magnitude, the nebula is clearly visible to the naked eye as part of Orion's Sword south of the three stars of Orion's Belt. Overall, it has an angular extension of about one degree.
The Orion Nebula is a subregion of the interstellar molecular cloud OMC-1 in the Orion molecular cloud complex. It consists mainly of hydrogen. Stars form in the nebula, whose ionizing radiation makes the nebula shine in the visible range. It is therefore also classified as an H-II area. At a distance of about 1350 light-years, it is one of the most active star-forming regions in the galactic neighborhood, which is why it is a preferred study object for studying star formation. It is expected to evolve into a Pleiades-like open star cluster.
The main ionization source of the Orion Nebula is the star θ¹ Orionis C1, which is also one of the most luminous stars known with more than 200,000 times the luminosity of the Sun. However, the immediately adjacent and similarly configured De Mairan's Nebula has a different ionizing source and is therefore not part of the Orion Nebula.
| Object : M42 The Great Orion Nebula
| Stack RGB : 288 Lights R+G+B / 100 Darks / 25 Flats / 500 Bias
| Stack LUM : 576 Lights Luminance / 100 Darks / 25 Flats / 500 Bias
| EBV Tools : Pixinsight / Adobe PS&LR / GraXpert / AstraImage
| Pixinsight: Blur X, Noise X, Star X Terminator, HDR Compilation
| Guiding : PHD2 & ZWO-ASI120 Mono / N.I.N.A.
| M&O : AZ-EQ6 GT Pro / Skywatcher 150/750 PDS
| Filter : Astronomy L/R/G/B
| Stuff : iKK GPU / OCTO+ 2"/ bezel ring / Lacerta MFOK
| Camera : Atik 16200 Mono & Filra / BW 750mm
| Exif RGB1 : BLZ each 64x 5s per frame / UnityGain / f/5
| Exif RGB2 : BLZ each 64x 60s per frame / UnityGain / f/5
| Exif RGB3 : BLZ 16x 180s per frame / UnityGain / f/5
| Exif LUM1 : BLZ 256x 2s per frame / UnityGain / f/5
| Exif LUM2 : BLZ 64x 5s per frame / UnityGain / f/5
| Exif LUM3 : BLZ 256x 60s per frame / UnityGain / f/5
| Total BLZ: 11 hours 11 minutes 52 seconds
Conditions for registration:
Clear nights, taken directly from the small town at Bortle 7 sky, clear light pollution from city lights.
#constellationorionis #greatorionnebula #runningmannebula #universe #artofpixastro #astrophotography
- Deepsky 750mm LSHO Stars: RGB
- Constellation Orionis
Another refreshing elaboration of the great Orion Nebula - and it's far from over ^^
Let the creativity run free, regarding the coloring, I call it "Fresh Banana Look", it somehow reminds me of an ice cream dessert in summer *g*
Narrowband filters for hAlpha, SII and OIII were used, the star colors come from RGB recordings. The colors were selectively adjusted by me, so we're pretty much in the "pretty pictures" range here But it's also fun every now and then
The Orion Nebula (M42 or NGC 1976) is an emission nebula in the constellation of Orion. Due to the high apparent brightness of its center above the 4th magnitude, the nebula is clearly visible to the naked eye as part of Orion's Sword south of the three stars of Orion's Belt. Overall, it has an angular extension of about one degree.
The Orion Nebula is a subregion of the interstellar molecular cloud OMC-1 in the Orion molecular cloud complex. It consists mainly of hydrogen. Stars form in the nebula, whose ionizing radiation makes the nebula shine in the visible range. It is therefore also classified as an H-II area. At a distance of about 1350 light-years, it is one of the most active star-forming regions in the galactic neighborhood, which is why it is a preferred study object for studying star formation. It is expected to evolve into a Pleiades-like open star cluster.
The main ionization source of the Orion Nebula is the star θ¹ Orionis C1, which is also one of the most luminous stars known with more than 200,000 times the luminosity of the Sun. However, the immediately adjacent and similarly configured De Mairan's Nebula has a different ionizing source and is therefore not part of the Orion Nebula.
| Object : M42 The Great Orion Nebula
| Stack RGB : 288 Lights R+G+B / 100 Darks / 25 Flats / 500 Bias
| Stack LUM : 576 Lights Luminance / 100 Darks / 25 Flats / 500 Bias
| EBV Tools : Pixinsight / Adobe PS&LR / GraXpert / AstraImage
| Pixinsight: Blur X, Noise X, Star X Terminator, HDR Compilation
| Guiding : PHD2 & ZWO-ASI120 Mono / N.I.N.A.
| M&O : AZ-EQ6 GT Pro / Skywatcher 150/750 PDS
| Filter : Astronomy L/R/G/B
| Stuff : iKK GPU / OCTO+ 2"/ bezel ring / Lacerta MFOK
| Camera : Atik 16200 Mono & Filra / BW 750mm
| Exif RGB1 : BLZ each 64x 5s per frame / UnityGain / f/5
| Exif RGB2 : BLZ each 64x 60s per frame / UnityGain / f/5
| Exif RGB3 : BLZ 16x 180s per frame / UnityGain / f/5
| Exif LUM1 : BLZ 256x 2s per frame / UnityGain / f/5
| Exif LUM2 : BLZ 64x 5s per frame / UnityGain / f/5
| Exif LUM3 : BLZ 256x 60s per frame / UnityGain / f/5
| Total BLZ: 11 hours 11 minutes 52 seconds
Conditions for registration:
Clear nights, taken directly from the small town at Bortle 7 sky, clear light pollution from city lights.
#constellationorionis #greatorionnebula #runningmannebula #universe #artofpixastro #astrophotography