Jump to content

Narrowband

GalaxyGael

Members
  • Posts

    384
  • Joined

  • Last visited

  • Days Won

    1

GalaxyGael last won the day on August 12 2021

GalaxyGael had the most liked content!

Reputation

680 Excellent

Profile Information

  • Gender
    Male

Recent Profile Visitors

3,690 profile views
  1. Handsome rendition and natural too. Epsilon looks to be singing.
  2. Well, if nebulae and dust regions in wide to medium field are of interest, signal is key, and the case in particular for osc. Tak epsilons are among the easiest newts to collimate IMO and like Rasa, retain collimation long term. They are also almost impervious to temperature focus drift. My experience is with the steel tube epsilons, remarkable flat line hfr values all night long. Any scope at f6 will reduce with 0.8x flattener to f4.8, whether 90mm f6 or the wide range of excellent 80mm f6 scopes. Your fra400 can also be reduced to f3.9, just under 300 mm focal length and corrects out to aps c sensor size. Fast and wide, big chunky of sky. And it is smaller than the Rasa, so consider whether you lug it in and out for sessions, if that's matters to you. Unless the fov is a concern, can't see much better options than a reduced fra400 you already have really, apart from the f3.9 fsq85 with new reducer, but it's a big outlay for something very similar. The TS 110flat f/4.8 is big and expensive, but slower than a reducer on your fra400, which might be the best option to see if wide field and speed is something that gives you the improvement you are testing the waters for? The new reducer does t fix the aperture vignetting of inverse lighthouse beams on fsq85, nothing can formally as it's part and parcel of the optical design. It just shows more when reduced with modern sensors, but mitigated for narrow bandpass (3-5nm) NB imaging. The new 3 or 5 nm dual band filters might be good there if the star shapes matter, personal taste.
  3. Depends on your imaging preferences and how to tackle each night. Fsq85 is arguably easier overall if you get a good sample, but osc-only imaging as I do benefits from speed and wide-ish field. You get all the tones and colour NB does not, with the option of adding to it if you wish. But to be fair, it depends on the types or targets. For those focal lengths, are you nebulae in broadband, galaxy clusters, dust, or? Both need setup time at the beginning. But fsq85 small star shape is fine with 2600mc with the 1.01x flattener. I know it's also perfect with 5.94um pixel full frame imx410. Extreme astigmatism comes from miscollimated fsq85 that shows more with small pixels, and that is more common than you think and takes a lot of time waiting for repair. With a good sample, assuming the focuser doesn't have slop, the fsq85 is very sharp. New reducer looks tempting, but the fsq85 with modern sensors is back focus sensitive, no way round that unless you go backwards in sensor tech and size. There are easier lens systems with in built flatteners around if that matters to you. Now star shape....Rasa never appealed to me in that department, but it gives signal at the fl unmatched by almost nothing else. That matter to some, maybe you? Fsq85 to me is worse. Cat eye bokeh from the virtual field stop of lens 3 in the stack that gives almond shaped out of focus stars and causes cracked stars, or inverse dark lighthouse beam effects in focus. These used to be hidden behind stumpy little 'newtonian-esque' spikes in older cc'd cameras with bigger pixels from the significant periodic texture of microlenses on the side that the light hits. With planar back side lit sensors, you'll see huge unavoidable dark beams that rotate around the frame, markedly pronounced with osc cameras in broadband where the stars are not suppressed like NB imaging. To me, it's worse than any system with diffraction, and from a scope where stars should be round. And it gets even worse if you do mosaics where they don't line up etc.....Do you need round stars? There are better apo out there for that. But, there are too many decent triplets with flatteners that work at f4.8 now, and even the 110mm flat field options that are almost identical to the AP 110gtx in design (can't say anything about execution). Esprit 100 is a great example of similar focal length, round stars and good sharpness tbh. The FRA300 in a good sample is fantastic, very easy setup and the whole thing melts in to the background. Probably since it is small and tidy, but corrects 2600mc and larger. But from my experience in bortle 6, and knowing others in bortle 4, osc imaging is better with fast optics. You're forced to use shorter subs (balancing zero gain options to use the whole full well capacity too), which takes care of stacking statistics, and you can get an image in broadband or NB in a single night. To balance that, I quickly realised that fast optics tempted me to image the same duration as I used to, but get what F5/6/7 refractors could not in a sensible amount of time - depth. I'll caveat that by saying its not general, and big aperture, long focal length, big pixel systems are not so f-stop dependent. So a tak epsilon takes the same imaging time for me over a few nights after owning it for a while, but I see more because it can do that at a decent pixel scale with high snr. That's what happened with me, though... Fsq85 is fantastic in NB, but you may get such good data that you realise you want more to complete an image given it's relative speed. For osc targets only your image quality preferences will dictate whether one winter night will be sufficient. It can be from f3.3 down to f2 though. The fast mirror scopes have their limitations as you know, and paying for the stable collimation options is a hurt-once problem, but takes that nightly concern away. and some of the concerns you read about online are sample variation, but an OSC camera setup are a little less taxing on a focuser compared to the mono setup with additional components. Aperture resolution benefits at short FL are in the weeds, and I doubt you will see night and day differences sufficient to be swayed by that criterion alone.
  4. There's a few epsilon 160s available in Europe right now just fyi ( but off topic a bit)
  5. Would be the other way round. A very tiny dust mite moving around on the sensor is better resolved, and would be bigger and more diffuse further from the sensor. No idea what it is though....is that movie a collection of subs and what's the length of the sub, the length of the movie overall and the plate scale? We could work our roughly the speed in pixels per second and get a rough size estimate just for fun. It does look like something imaged in the sky, spooky!
  6. Agree, lovely image of this object and you can see through it just enough to appreciate it is a clouds of gas with various degrees of density, but still see the structure of the various parts.
  7. True, but there is no problem caused by a camera that is smaller than central obstruction from that point of view. I'm guessing the illuminated and corrected circle is smaller than rasa8. That's where the old 4.5um atik 460 1 inch sensor might be useful for those who have them on a shelf, or the 178mc or maybe the 585mc or other zero amp glow planetary type cams in the non cooled variants for 30s subs etc.
  8. Bring back the atik 460/490 camera bodies with new sensors and usb 3. Ideal for any Rasa, including Rasa 6. Cooling I think was the limitation there though.
  9. Ah, so some sort of turnkey robotic 6inch Rasa with inbuilt camera maybe, celestron version of the small robotic systems but faster?
  10. Nothing to do but think when waiting at the bus stop.....😃 They emphasized BIG, so what if they went the honders route, or some variant as a fast, short astrograph a la Riccardo honders e.g.?
  11. Forgot to add, maybe they'll go with focusing built-in to the camera attachment optics at the front? Unlike RCs, i dont think there is any primary to secondary distance to respect, so that might work...
  12. I wonder if the innovation will be in the optics, covering aps c properly in a 6 inch. Then again, listening to many users, collimation and tilt adjustment in situ would be useful. On the other side, I wonder if they are going for a smaller system with wider field to give an option for 1inch and smaller sensors with tiny pixels, which are now available as cooled options? That's a way to get a decent fov like a smallish frac with easier tilt needs and ok pixel scale on 2.4 -2.9 um pixels? But, this announcement could show something from left field, we only see the rasa-esque front part. I'm curious though, come to appreciate small imaging packages in a backyard setup these days.
  13. Astrobin's platesolver shows another asteroid, 35 Leukothea, a carbonaceous 'lump of coal' but I can see nothing in the image. Maybe it is the tiny orange speck at 11 o clock? It doesn't pick up on 101 Helena or 62P comet though Hmm, while some are re-processing to beat the band with new iterations of pixinsight tools, I can see a rabbit hole with asteroid chasing in heaps of old data in my future. Dont know if that's a good thing or a bad thing
  14. Fascinating, thanks. I found it also with stellarium. What a bit of luck on my part...
×
×
  • Create New...

Important Information

We have placed cookies on your device to help make this website better. You can adjust your cookie settings, otherwise we'll assume you're okay to continue. By using this site, you agree to our Terms of Use.