Astrophotography
Or would the tolerances needed in the hinged mirror make the whole thing unusable?
I was looking at modern "smart telescopes" recently and noticed some are sideways and wondered if that would be possible for a normal hobby Newtonian telescope.
Possible upsides:
- no tripod needed for use
- mirror is light so smaller motors can be used for movement
Possible downsides:
- maybe mirror flatness?
- • 100%
Polar Aligment
I'm thinking about an IoT Polar Aligner. The main idea is to use a Raspberry Pi W with the camera module to find and detect the North Star and display it on the mobile phone. The final goal is to connect it with servos so that it can automatically align itself. Does anyone know of a similar open source project?
Crosspost: https://mander.xyz/post/20076533
Got another shot at C/2023 A3.
- Samyang 135mm f2.0
- Fuji X-T5
- 603 x 5s
- ISO 400
- Stacked, streched in Siril
- combined stars, comet and foreground in Photoshop
Southern Ohio, USA. Bortle 3. Exif data is in the image. Colored adjusted in Gimp. We actually saw zero meteors. I was quite disappointed until I got home and looked at the RAW files in Windows Photos Legacy. I found 8-9 meteors! Apparently RAW files have some magic going on.
Saw two shooting stars pop up while watching the comet last night, one of them showed up in the exposure I was taking at the time. Canon R8 w 13s exposure, iso 8000, f7.1; cropped.
Taken with Pixel phone over 4:00 minutes in Astro mode. RAW further edited in Snapseed.
We got extremely lucky and got a tiny window of cloudless sky in an never ending sequence of cloudy nights. Also the conditions were a nightmare with severe light pollution and lights shining directly at our equipment.
- Samyang 135mm f2.0
- Fuji X-T5
- 158 x 5s
- ISO 125
- @f2.8
And maybe somebody here can explain to us what the ionized gas is that 'shoots out‘ in front of the comet?
Also do the colours seem to be correct? We tried our best at background extraction and maintaining the true colour, but the raw data was of poor quality. From images of other comets the dust tails normally seems to have a yellow/orange colour and only the plasma tail is blue.
Edit: found the answer to the Anti-tail. It shows the trail of dust were the comet has traveled, which appears to come out at the opposing side because of earths angle relative to the comet and sun.
Equipment:
- Samyang 135mm f2.0 lens
- Fuji X-T5 (unmodified)
- Star Adventurer 2i
Images:
- 220 x 60s
- ISO 400
Processing:
- stacked in Siril
- remove green noise
- background extraction
- BlurXTerminator
- NoiseXTerminator (0.5)
- GHST
- final editing and recomposition in Photoshop
More details: https://telescopius.com/pictures/view/202996/deep_sky/ngc-1456/pleiades/by-maxi_franzi
We really struggled to combine RGB with Ha. For our first try at continuum subtraction however we are very pleased.
Equipment:
- Samyang 135mm f2.0 lens
- Fuji X-T5 (unmodified)
- Star Adventurer 2i
- STC duo narrowband filter
Images:
- 288x 60s RGB
- 592x 60s narrowband
Processing:
- stacked in Siril
- remove green noise
- background extraction
- star removal on both rgb and Ha
- continuum subtraction with Pixelmath in Siril
- adding Ha to RGB with Pixelmath
- BlurXTerminator
- NoiseXTerminator (0.5)
- GHST
- final editing and recomposition in Photoshop
Full resolution and more details: https://telescopius.com/pictures/view/202859/deep_sky/ngc-206/m31-andromeda/by-maxi_franzi
~600 images with 4 seconds exposure without a tracker. This is my first ever (successful) try of any object on the night sky. I did a post a few weeks ago asking for a camera setup, and I went and bought a panasonic lumix g85 with the 45-150 f4-5.6 lens I had in mind before that. I know this is not the ideal setup, but I am still very proud of that image. Although I would appreciate any feedback on how to improve my skills.
M31 shot only in Ha and OIII.
Equipment:
- Samyang 135mm f2.0
- Fuji X-T5 unmodified
- Star Adventurer 2i
- STC dual narrowband filter
Images:
- 650x 60s
- ISO 3200
Processing:
- remove green noise
- background extraction
- photometric colour calibration
- BluXTerminator
- NoiseXTerminator (0.4)
- star removal
- GHST
- saturation, blending and final adjustments in Photoshop
I am thinking about buying a camera, but not exclusively for astrophotography. Since this will be my first own camera, I don't want to spend too much money. For that reason, I looked mainly for Micro four thirds, specifically the lumix g85. I dont know what category of ap I will like the most/focus on, but until now I only tried deep space with a relatives camera. I know I probably wont be able to get images like most in this community, but I want to know your experiences. How far can I get with stacking? What should I look out for in Bodies and lenses?
We finally got two clear nights and although the moon was really bright, this target came out quite well due to the narrowband filter.
Equipment:
- Samyang 135mm f2.0
- Fuji X-T5
- Star Adventurer 2i
- Duo narrowband filter
Images:
- 466 x 60s lights
- ISO 3200
- @f2.8
Editing:
- Stacking with drizzle in Siril
- Background removal in GraXpert
- photometric color calibration in Siril
- BlurXTerminator
- 0.3 denoising with BlurXTerminator
- Star removal
- Stretching in Siril with GHST
- final composing in Photoshop (saturation, contrast, blending with stars)
Full resolution and more details: https://telescopius.com/pictures/view/198606/deep_sky/ngc-6974/veil-nebula-complex/by-maxi_franzi
Hey everyone, I’m in need of help. I’m a long time landscape photographer on a hiatus. I’ve been looking into astrophotography and it is getting me really excited to get back at it while learning a new skill and enjoying a new aspect of photography. I’ve always enjoyed seeing the Milky Way and viewing the beautiful photos of nebula.
I would like some help selecting a star tracker. I have a Canon 5D Mk3, TSE 24mm f/3.5L, 70-300mm f/4-5.6L, and a 300mm f/2.8L. With the 300mm mounted to the camera it weighs 9lb-1.6oz. I’ve got what seems like to me a pretty decent view from the roof of my house for photographing nebulas but also have a great spot less than a 10min walk from my house to get the Milky Way over the mountains.
I’m thinking of getting either the Sky-Watcher EQM-35 or the Sky-Watcher Star Adventurer GTi. I like the idea of having a portable battery powered star tracker (GTi) but it’s payload is 11lbs and my large lens with camera is 9lb-1.6oz which is pretty close to its max. Would that be okay or is it too heavy to work well? The EQM-35 has a 22lb payload but is far less portable, though I suppose I could hook it up to a portable lithium battery pack. Overall I think I would prefer the GTi for its portability and cheaper price but am worried about being so close to the weight capacity.
Whatever suggestions you all provide please keep these constraints in mind. I use Linux and absolutely will not install any apps on my phone for functionality unless they are FOSS with no trackers. I have found that the program KStars can control cameras and mounts via the protocol INDI as well as Sky-Watcher has a SynScan hand controller accessory.
I appreciate any help given and am looking to go to a local Star Party to meet people but sadly am busy during the next one. Thanks!
Vaonis Vespera II. 350 images or so over ~1.75 hours, stacked by the scope software. .
If you zoom in you can see some steaking and lines. Is that clouds or condensation?
We got a lucky shot of Andromeda with a meteor crossing our view.Apparently we shot a satellite flare next to Andromeda.Images:
- Samyang 135mm @2.8
- Fuji X-T5
- Star Adventurer 2i
- 465 x 30s
- ISO 200
Processing:
- stacking, stretching, background extraction and star separation in Siril
- final composition in Photoshop
- • 100%www.rmg.co.uk Astronomy Photographer of the Year 2024 shortlist
See a selection of the incredible space images shortlisted in Astronomy Photographer of the Year 2024
Some amazing shots in here, and inspiration for shooters I'm sure
This isn’t a great photo. I was sitting outside in Moab, UT playing with the night sky app. The bright dot right above the hilltops is the ISS. Taken with an iPhone 15 Pro on default settings (3 second exposure in the dark) so it’s not that far off from the actual view.
I live in a city but I’m near a dark sky site right now so I’ve been having a ball with just my binoculars and a camera phone.
Does anyone know of a modded pixel camera app that would allow me to use astrophotography mode without the requirements being met (camera stability and light level)? I've been searching for awhile but haven't found one yet.
Edit: Per the recommendation of @Kokesh@lemmy.world I have downloaded the BSG camera mod (specifically the ENG version) and it has this exact feature!
https://www.celsoazevedo.com/files/android/google-camera/dev-bsg/f/dl216/
Although the seeing was not great we managed to get our first shot of the region around Sadr.
Equipment:
- Samyang 135mm
- Fuji X-T5
- Star Adventurer 2i
- STC Clip In filter (multi narrowband)
Images:
- 296x 30s
- ISO 800
- f2.0
Editing:
- stacking and stretching in Siril
- BXT
- gradient removal and denoise in Graxpert
- final editing in PS
Full resolution and more infos: https://telescopius.com/pictures/view/192523/deep_sky/crescent-nebula/NGC/6888/diffuse-nebula/by-maxi_franzi
Equipment:
- Samyang 135mm
- Fuji X-T5 (unmodified)
- Star Adventurer 2i
- STC Clip In Filter
Images:
- 318 x 30s
- ISO 800
- f2.0
Editing:
- Siril for stacking and stretching
- Graxpert Background removal & denoise
- BXT
- Photoshop for final editing
Full resolution and more info: https://telescopius.com/pictures/view/192387/deep_sky/omega-or-swan-nebula/M/17/diffuse-nebula/by-maxi_franzi
Video
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I have a Sigma 14mm f/1.4 (Sony aIV) that I got recently but I'd also have to backpack it in 8 miles with 2000 feet elevation.
Good news: I will be going to Vogelsang Lake in Yosemite and Milky Way is expected to be right in between the two mountain peaks (SouthEast) that loom over the lake.
Bad news: Last light is supposed to be 9pm. Full moon (one day past technically) is supposed to be right below the horizon and rise above the horizon by 10pm.
Will the light pollution from the lake make the milky way not photographable? Any advice appreciated. Thanks!
500,000 stars in that ball.
Taken with Vespera 2 smart scope. 104 stacked images over 17 minutes. Processed by the scope and Singularity app.
Taken with Vespera 2/Singularity. 322 images captured over 54 minutes.
Taken with Vespera 2 smart scope. 272 stacked images over 45 minutes (10 seconds per image).
This is one of my first shots and I think it came out great for having very little idea of what I'm doing. The scope does all the work and processing.