David's Images of the Day Photoblog
I returned to the far corner of my backyard with a view to the west where Comet C/2023 A3 (Tsuchinshan–ATLAS) was still high enough above the trees be visible just after dusk. The estimated magnitude of the comet was +4.7. I couldn’t see it directly, but easily captured an image with Vespera Pro telescope. This is a composite of 30 stacked 10 second images (300 second exposure).
I found a spot in the far corner of my backyard with a view to the west where Comet C/2023 A3 (Tsuchinshan–ATLAS) was still high enough above the trees after dusk to be visible. The estimated magnitude of the comet was +4.5. To me barely visible to the eye, but easily captured by camera or Vespera telescope.
To observe a comet with the Vespera telescopes, you first need to determine the RA (right ascension) and Dec (declination) coordinates of the comet for your location at the time of the observation. I use Stellarium find this information. The RA/dec data is needed to create a manual observation target in the Singularity application that controls the Vespera telescopes.
The Vespera telescopes weigh about 5 kg (11 lbs) and could easily be carried to the far corner of my backyard and set up on heavy duty camera tripods. The only thing I needed to worry about was a doe that found a hole in my deer fence and was wandering around in the back yard. Once it was dark enough to initialize (automatically align and focus) the Vespera telescopes all I needed to do set it to look for the manual target and start acquiring and stacking images.
The comet was much brighter than the other stars in the field of view. The comet’s tail was longer than the field of view of the telescopes. Vespera Classic (1.6° x 0.9°) and Vespera Pro (1.6° x 1.6°). The jpg images were processed to increase the brightness (Capture One Pro) and reduce the noise (Topaz AI).
I just arrived back home from a short trip to Florida and the night sky was clear. Comet C/2022 E3 (ZTF) is now visible in the early evening sky. Both the Stellina and Vespera telescope/cameras were used to capture images. The telescopes automatically track the motion of the stars in the sky while taking 10 second images. During the time of the observations (15-63 minutes), the comet is moving, creating a tail in the image. This motion can be viewed in the time-lapse video.
Stellina and Vespera Deep Sky Observations. Comet C/2022 E3 (ZTF). JPG images processed with Topaz AI, followed by Capture One Pro. Individual images in the slideshow are available in my PhotoShelter Gallery.
Stellina and Vespera Deep Sky Observations. Comet C/2022 E3 (ZTF). JPG images processed with Topaz AI, followed by Capture One Pro. Individual images in the slideshow are available in my PhotoShelter Gallery.
Daily Electric Energy Used (79.5 kWh) from Sense. Daily Solar Electric Energy Produced (34.6 kWh) from Sense. Sun and clouds. Deficit of 44.9 kWh.
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Comet C/2022 E3 (ZTF), although not visible to my human eye can be observed with the Stellina or Vespera telescopes. It is high enough above the horizon before dawn to be viewed above my house from the back patio. I use the Sky Live website to get the location of the comet, and then enter the numbers into the Singularity application. Within minutes, both the Stellina and Vespera systems have the comet centered and start taking images.
During the day, I used the Vespera telescope fitted with a solar filter to view the many sunspots currently visible. For solar observations, the Vespera takes individual JPEG images which I put together as a short time-lapse video.
The sky was mostly clear before midnight. Captured images of the Heart Nebula (IC 1805) and the Monkey Head Nebula (NGC 2174). Images from the Stellina were without any filter, and ones from the Vespera used a Dual Band (H-alpha, O III) filter. The filter helps bring out detail with images of nebulae.
For the following images, I processed the final JPG image with Topaz AI, followed by Capture One Pro. For the raw TIFF images, I needed to use Capture One Pro first, followed by Topaz AI. Follow the link to my PhotoShelter Gallery for larger views of the images. The nebulae images taken using the dual H-alpha, O-III filter are more vivid.
Stellina and Vespera Deep Sky Observations. JPG images processed with Topaz AI, followed by Capture One Pro. Individual images in the slideshow are available in my PhotoShelter Gallery.
Stellina and Vespera Deep Sky Observations. TIF images processed with Capture One Pro followed by Topaz AI. Individual images in the slideshow are available in my PhotoShelter Gallery.
I also set up two cameras to record star trails. I like the ability of the Hasselblad X2D to take long exposures using the internal camera controls. With the Hasselblad, I used 323 sec (5m 23s) exposures. The Nikon Z9 is limited to 30 sec exposures without using an external shutter controller. The previous Nikon D810a did have the ability to take exposures longer than 30 sec. Clouds started coming in after 22:15.
Star and Jet trails looking south. Images taken with a Hasselblad X2D camera and 30 mm f/3.5 lens (ISO 64, 30 mm, f/8, 323 s). Images processed with Phocus and the composites created using PhotoShop (scripts, statistics, maximum). Individual images in the slideshow are available in my PhotoShelter Gallery.
Star and Jet trails looking north. Images taken with a Nikon Z9 camera, FTZ adapter, and 19 mm f/4 PC-E lens (ISO 200, 19 mm, f/5.6, 30 s). Images processed with Capture One Pro and the composites created using PhotoShop (scripts, statistics, maximum). Individual images in the slideshow are available in my PhotoShelter Gallery.
Daily Electric Energy Used (96.1 kWh) from Sense. Daily Solar Electric Energy Produced (35.6 kWh) from Sense. Sunny. Deficit of 60.5 kWh.
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It was clear again overnight. I did three longer observations using the Vespera Observation Station. Crab Nebula (M1, 363 images), Orion Nebula (M42, 907 images). Pinwheel Galaxy (M101, 661 images). For the Orion Nebula observation, I tried the beta Mosaic mode to get a wider image. The sensor size for the Vespera captures a 1.6° x 0.9° field of view. With the Mosaic mode the field of view is up to 4x greater (3.2° x 1.8° = 8.2 Mpx). The longer observation times do provide sharper images with more detail and less noise.
For the following images, I processed the final JPG image with Topaz AI, followed by Capture One Pro. For the raw TIFF images, I needed to use Capture One Pro first, followed by Topaz AI.
Vespera Deep Sky Observations. JPG images processed with Topaz AI, followed by Capture One Pro. Individual images in the slideshow are available in my PhotoShelter Gallery.
Vespera Deep Sky Observations. TIF images processed with Capture One Pro followed by Topaz AI. Individual images in the slideshow are available in my PhotoShelter Gallery.
Daily Electric Energy Used (95.7 kWh) from Sense. Daily Solar Electric Energy Produced (19.5 kWh) from Sense. Sun and clouds. Deficit of 76.2 kWh.
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