I have to admit that
in many photos, this nebula really looks like the winged helmet of an ancient
warrior or mythological god. But if it is up to me (and why not?), I would call
it Asterix's Helmet. Nothing against Thor, but Asterix has been much more important
in my life than the remote (to me), scandinavian god. In other words, Asterix
is a hero of my childhood and, I admit, adulthood… I still enjoy re-reading
those used comic books and seeing how the wings of Asterix helmet seem to be
connected to his face, reflecting his expressions so well… For some reason, the
old classic episodes of Asterix adventures are more appealing to me than the
newer ones, which in my opinion lack some of the freshness and subtle humor of
the first ones. Or may be the style of drawing is not the same? Because as it
is normal, there has been an evolution in the drawing and the script quality,
like with Mortadelo y Filemón, those other great cartoon characters. There must
be a Mortadelo nebula somewhere, I need to look for it.
Still this NGC2359
is broadly known as Thor's Helmet or Duck's nebula, although I don't see the
bird very clearly. The wings yes, the rest, well, maybe a very fat duck?
Anyway, it is a beautiful nebula both in "normal" RGB color photos
and in "false color" narrowband photos. I am quite happy with the
result because I always had the impression that this Southern object in Canis
Major, quite close to Sirius, the brightest star in the sky, would be difficult
to photograph for me. Well, it was not easy in the sense that I can only take
maximum two hours each night, since it crosses the meridian (which is when I
start the session) till it is too low, say less than 25 degress above the
horizon.
The nebula is pretty big, about 30 light years in diameter, so its apparent size seen from here is also large, considering that it is located at 15000 light years from us.
That is far away, relatively speaking. It is caused by a very energetic
"Wolf-Rayet" star. This star, a blue supergiant, emits a lot of
radiation mostly as ultraviolet photos. But it also emits matter, or stellar
wind, that compresses the gas clouds in the vicinity of the star, thus shaping
the cloud into its bubble form. The UV photons excite the gas that then glows
in several wavelengths, including the ones corresponding to hydrogen-alpha,
ionized oxygen and sulphur, which are the ones that I have registered with the
filters I used. This kind of nebulae, created by Wolf-Rayet stars, has nothing
to do with planetary nebulae, created by dying stars in their nova stage. Other
famous Wolf-Rayet bubbles are of course the Bubble Nebula near Messier-M52 in
Cassiopea, and the Crescent Nebula in Cygnus.
The Asterix's Helmet
nebula (ok, or Thor's Helmet) emits a lot in OIII, its signal in the central
part of the nebula is actually stronger than the H-alpha. But the H-alpha is
more extended, meaning there is a broad diffuse cloud of hydrogen in the area.
In sulphur-II there is far less signal, which concentrates mostly in the helmet
area and its western wing.
In the web there are
some nice versions, many of them in NASA's APOD page:
Much more detailed,
by a well renowned group of authors:
Another group a few
years earlier:
And by the Isaac
Newton telescope in the Canary Islands, Spain:
I have used the
normal equipment in the Mar de la Frau Observatory:
Telescope AP 130
Gran Turismo, with Hotech field flattener (f/6.2, 800mm focal length)
Camera QSI 683ws
Mount ASA DDM60,
unguided
Filters:
narrowband, 5nm (Astrodon)
Exposure times:
H-alpha: 10h
OIII: 10h10min
SII: 3h 20min
Total: 23h 30min
All subframes of
10min
Processed with
Pixinsight 1.8Hope you like it!
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