Horsehead Nebula Barnard 33 + IC 434

History

Wilhelm Herschel had apparently overlooked the nebula IC 434 in 1765 when he found NGC 2023 (WH IV 24) on January 6, 1785 and almost a year later on January 1, 1786 NGC 2024 (WH V 28) at the eyepiece of his 18 inch reflector telescope with 20 IC 434 was only discovered in 1887 by the French astronomer Paul-Pierre Henry and also in 1888 by Williamina Fleming. Barnard realized in 1913 that the Horsehead Nebula must be a dark nebula instead of simply missing stars and gas. [196, 277]

Barnard 33
Barnard 33: Emission nebula IC 434 behind dark nebula Barnard 33; Celestron RASA 11" f/2.22; ZWO ASI6200 Pro; Tentlingen; © 2020 Peter Kocher
Barnard 33
Barnard 33: Collage 10 years Horsehead Nebula; © 1998-2008 Eduard von Bergen
Barnard 33
Barnard 33: Bright nebula IC 434 with dark Horsehead Nebula; 500 mm Cassegrain 3625 mm f/7.2; SBIG STL11K; 80+30+30+30 min LRGB; Berner Oberland; © 2011 Radek Chromik
Horsehead Nebula
Horsehead Nebula: Emission nebula IC 434 behind dark nebula Barnard 33; RC 500 on AOK Herkules V48 mount; SBIG STL-11000M/C2; -30 °C chip temperature, R/G/B unbinned, R 22×5 min, G 21×5 min, B 22×5 min; Son Bi Observatory, Mallorca; © 2.-3. 12. 2016 Beat Kohler, Hansjörg Wälchli

Physical Properties

The Horsehead Nebula is a nebula of cold gas and dust, which emits little light in the visible spectrum and therefore appears dark. The infrared image of the HST (Fig. 4) shows that this nebula glows in the infrared. This dark cloud extends southwest of Orion's left belt star (Alnitak, ζ Orionis) and a tip of it protrudes over the glowing red H-II emission nebula IC 434. This part resembles the head of a horse looking at the star Alnitak.

Horsehead Nebula
Horsehead Nebula: Infrared image taken with Hubble Space Telescope, 2014 [200]

The area is about 1,500 light years away and covers an area about a quarter of the full moon. The mass of the Horsehead Nebula is estimated to be about 27 solar masses. In addition to hydrogen, the nebula also contains simple hydrocarbon compounds, as well as oxygen and sulfur. The nebula is a star formation region similar to the "Pillars of Creation" in M 16. [201, 202]

«Revised New General Catalogue and Index Catalogue» Dr. Wolfgang Steinicke, 2021 [277]
DesignationIC 434
TypeEN
Right Ascension05h 41m 00.0s
Declination-02° 27' 12"
Diameter60.00 × 10.0 arcmin
Photographic (blue) magnitude11.0 mag
Dreyer DescriptionNeb, 60' l, south from ζ Orionis
IdentificationLBN 953, CED 55N, Horsehead nebula

Other interesting deep-sky objects in the immediate vicinity (see inlet on location map):

  • NGC 2023: Lump star (reflection nebula around 7.82 mag star HD 37903)
  • NGC 2024: Flaming Tree Nebula
  • IC 435 (reflection nebula around 8.3 mag star HD 38087)

Finder Chart

The emission nebula IC 434 is attached to the left belt star (Alnitak, ζ Orionis) of the constellation Orion. This nebula is home to a dark cloud that lives up to its name, Horsehead.

Chart Barnard 33
Chart created using SkySafari 6 Pro and STScI Digitized Sky Survey. [149, 160]

Visual Observation

90 mm Aperture: The dark nebula can also be seen in small instruments. The three of us, Manfred, Martin and I, saw the Horsehead Nebula in a Sky 90mm refractor. We achieved this with indirect vision and thanks to which we knew the exact position of the 320mm ninja. We also lost less light in Manfred's telescope with the UHC filter. Rather, we now believe that the exit pupil is much more important than just a large opening. It probably just takes an excellent night of vision and calmness. [192] — Sky 90mm-Refraktor / TV-Nagler 9mm / UHC-Filter, Eduard von Bergen

Barnard 33
Barnard 33: Pencil sketch; 12.5" Ninja-Dobson f/4.5, TV-Nagler 13mm, 111x, 0.74°, D: 6.6mag, L: unruhig; Langis 1440m; © 23. 2. 2003 22:30 Eduard von Bergen

320 mm Aperture: This object is not a big problem with an H-beta filter. An important prerequisite is a dark, transparent sky, ideally alpine and / or a limit size of over 6 magnitudes. On the one hand, one recognizes the emission nebula IC 434 and, as a thumb protruding into it, a dark spot which represents the Horsehead Nebula. The dark spot can be made out with direct vision, the attachment to the muzzle is better visible with averted vision. There is always a lot of speculation about how and with what instruments one can even detect the Horsehead Nebula. It was already possible to see the horse's head in one evening, before without moonlight and later with moonlight. Of course, the place viewed just under an hour ago was still there and helped to perceive it in moonlight. [192] — 12.5" Ninja-Dobson, F:4.5 / TV-Nagler 13mm, 111x, 0.74° / H-beta-Filter, Eduard von Bergen

762 mm Aperture: Already clearly recognizable without the H-beta filter. With the filter even the snout can be seen. — 30" f/3.3 Slipstream Dobsonian, Hasliberg Reuti, 5. 11. 2021, Eduard von Bergen

References

149SkySafari 6 Pro, Simulation Curriculum; skysafariastronomy.com
160The STScI Digitized Sky Survey; archive.stsci.edu/cgi-bin/dss_form
192Deep-Sky Guide; fernrohr.ch/1d_deep-sky-guide.html (2020-12-25)
196Celestial Atlas by Curtney Seligman; cseligman.com/text/atlas.htm (2020-12-28)
200Horsehead Nebula in Infrared; hubblesite.org/image/3844/printshop (2020-12-28)
201«Looking into the Horsehead» Marc W. Pound1, Bo Reipurth, and John Bally; DOI:10.1086/368138
202«The Horsehead nebula, a template source for interstellar physics and chemistry» Maryvonne Gerin (LERMA), Jérôme Pety (IRAM), Javier R. Goicoechea; arXiv:0905.3625
277«Historische Deep-Sky Kataloge» von Dr. Wolfgang Steinicke; klima-luft.de/steinicke (2021-02-17)