The below three shots are the results of many hours of effort but at the same time falling short on my initial expectations. Perhaps my sights were set too high for the equipment at hand. At the same time - good enough for me to post here - they are not easy subjects for the amateur.
The upper shot of the Cat's Eye Nebula shows the outer shell of the Nebula but try as I might I could not bring out the detail from the center - it is just so intense. It is worthwhile searching out a Hubble Space Telescope photo of this nebula - it is both amazing and beautiful.
The middle shot of the Owl Nebula did to some degree bring out what I was after - the outer extremely faint halo around the nebula. (This shows up mostly in the OIII emission line). I have shot this target before (2015) and used some of that data in making this one.
The lower image is of Abell 31. Although I have put a lot of time into this one, both in capture time and processing time, it most certainly does not jump out of the page at you. It is extremely weak and for the most part, showing very little structure. The OIII center is much stronger than the outer Ha signal. Trying to pull out that Ha shell (by increasing the Ha signal) just increases the noise in the area of the nebula - and makes it even less distinctive.
The upper shot of the Cat's Eye Nebula shows the outer shell of the Nebula but try as I might I could not bring out the detail from the center - it is just so intense. It is worthwhile searching out a Hubble Space Telescope photo of this nebula - it is both amazing and beautiful.
The middle shot of the Owl Nebula did to some degree bring out what I was after - the outer extremely faint halo around the nebula. (This shows up mostly in the OIII emission line). I have shot this target before (2015) and used some of that data in making this one.
The lower image is of Abell 31. Although I have put a lot of time into this one, both in capture time and processing time, it most certainly does not jump out of the page at you. It is extremely weak and for the most part, showing very little structure. The OIII center is much stronger than the outer Ha signal. Trying to pull out that Ha shell (by increasing the Ha signal) just increases the noise in the area of the nebula - and makes it even less distinctive.
The Cat's Eye Nebula or NGC 6543, is a relatively bright planetary nebula in the northern constellation of Draco, which was discovered by William Herschel on February 15, 1786. It was notably the first planetary nebula whose spectrum was investigated by the English amateur astronomer William Huggins, demonstrating that planetary nebulae were gaseous and not stellar in nature. Structurally, the object has had high-resolution images by the Hubble Space Telescope revealing knots, jets, bubbles and complex arcs, being illuminated by the central hot planetary nebula nucleus or PNN. It is a well-studied object that has been observed from radio to X-ray wavelengths. Surface temperature for the central star is about 80,000 K, being 10,000 times as luminous as the sun.
Acquisition:
Ha (3nm) 4 Hrs 40 Mins
OIII (3nm) 4 Hrs
SII (3nm) 3 Hrs
Acquisition:
Ha (3nm) 4 Hrs 40 Mins
OIII (3nm) 4 Hrs
SII (3nm) 3 Hrs
The Owl Nebula (Messier 97,M97, NGC 3587) is a planetary nebula located approximately 2,030 light years away in the constellation Ursa Major. It was discovered by French astronomer Pierre Méchain on February 16, 1781. When William Parsons, 3rd Earl of Rosse, observed the nebula in 1848, his hand-drawn illustration resembled an owl's head. It has been known as the Owl Nebula ever since.
The nebula is approximately 8,000 years old. It is approximately circular in cross-section with a little visible internal structure. It was formed from the outflow of material from the stellar wind of the central star as it evolved along the asymptotic giant branch. The nebula is arranged in three concentric shells, with the outermost shell being about 20–30% larger than the inner shell. The owl-like appearance of the nebula is the result of an inner shell that is not circularly symmetric, but instead forms a barrel-like structure aligned at an angle of 45° to the line of sight.
Acquisition:
Ha (3nm) 3 Hrs 40 Mins
OIII (3nm) 4 Hrs 40 Mins
SII (3nm) 4 Hrs 40 Mins
Plus RGB data from last year.
The nebula is approximately 8,000 years old. It is approximately circular in cross-section with a little visible internal structure. It was formed from the outflow of material from the stellar wind of the central star as it evolved along the asymptotic giant branch. The nebula is arranged in three concentric shells, with the outermost shell being about 20–30% larger than the inner shell. The owl-like appearance of the nebula is the result of an inner shell that is not circularly symmetric, but instead forms a barrel-like structure aligned at an angle of 45° to the line of sight.
Acquisition:
Ha (3nm) 3 Hrs 40 Mins
OIII (3nm) 4 Hrs 40 Mins
SII (3nm) 4 Hrs 40 Mins
Plus RGB data from last year.
I made another attempt at Abell 31 (Also known as SH2-290) in 2017........using updated data. See HERE
Abell 31 is an ancient planetary nebula in the constellation of Cancer. It is estimated to be about 2,000 light years away. Although it is one of the largest planetary nebulae in the sky, it is not very bright.
This may be improved with RGB data - I am not sure. For me it was another difficult object to acquire and process.
Acquisition:
Ha (3nm) 8 Hrs 20 Mins
OIII (3nm) 7 Hrs 00 Mins
This may be improved with RGB data - I am not sure. For me it was another difficult object to acquire and process.
Acquisition:
Ha (3nm) 8 Hrs 20 Mins
OIII (3nm) 7 Hrs 00 Mins