C / 1843 D1 (Great March Comet)

Discovery and observation

On February 27, the core of the comet came from the earth as seen from about 21:00 UT for about 55 minutes behind the sun over and reappeared on the other side around the time of its closest approach to the sun. It moved a little further away from the sun and then moved towards it again, so that it then passed in front of the sun again for about 1 hour at around 11:30 p.m. UT. However, these events were not observed.

Already on the following day there were numerous sighting reports from Italy , many people saw the comet as “a very beautiful star” on a bright day with a 4 to 5 ° long tail about 3 ° from the sun. There were also numerous observations in North America . In China it was recorded that a large "broom star" was sighted that day. The next day, when the comet was 8 ° from the Sun, the comet's tail reached into the evening sky, which resulted in further independent discoveries of the comet. So there were reports u. a. from Tasmania , Mauritius , Brazil , New Zealand and Australia .

The Great Comet of 1843

On March 3rd, the now 25 ° long tail seems to have forked, as Charles Piazzi Smyth from South Africa reported. Although the comet's core also shone surprisingly bright on March 4th, the bright silvery tail, which stretched from the west almost to the zenith , was the more interesting thing for most observers on the following days. Between March 10 and March 20, the length of the tail was generally estimated to be between 40 and 50 °; on March 21, Johann Friedrich Julius Schmidt was able to observe a tail of 64 ° length, parts of which could be seen long after the head had already gone down. The tail was of remarkably uniform and high intensity over much of its length, and was relatively narrow and straight to slightly curved and slightly forked at the end.

The comet faded rapidly in late March, and by April 3 it was barely visible to the naked eye. The comet was last observed with a telescope on April 19 by Thomas Maclear in South Africa.

The comet reached a brightness of <-3 mag on March 7th .

Effects on the zeitgeist

Superstitious people saw the appearance of the comet as a sign of Judgment Day , but primitive peoples were also terrified. The Aborigines in South Australia hid in caves and saw the comet as a calamity, especially for the white colonists.

Charles Piazzi Smyth: Daylight View over Table Bay Showing the Great Comet of 1843

Scientific evaluation

Comets as close to the Sun as the Great Comet of 1843 has puzzled astronomers for over 300 years. Ever since it was proven that the Great Comet C / 1680 V1 had almost grazed the surface of the sun at its closest approximation of only 200,000 km, they wondered on the one hand how comets can survive something like this, and on the other hand, when such a sun streamer had before could have appeared.

For a long time, three or four comets from the last third of the 17th century (not the comet of 1680) were considered the most likely candidates for an earlier appearance of the comet of 1843 . Values ​​of 175 years down to the completely impossible 7 years have been assumed as the orbital period of the comet. Direct calculations based on the observations of the comet showed, however, that the orbital period probably cannot be shorter than 400 to 500 years.

The conclusion was that there must be a number of different comets moving in practically the same sun-grazing orbit. Daniel Kirkwood was the first to suggest in 1880 that the sun-grazing comets formed such a comet group. He suspected that the comets of 1843 and 1880 could be fragments of the comet of -371 , which, according to the report of the Greek historian Ephorus, had broken in two. The comet of 1882 also broke into several fragments as it passed the sun. A few years later, another member of this comet group was identified with the great southern comet C / 1887 B1 .

The sun streaker was then examined very intensively from 1888 to 1901 by Heinrich Kreutz , who suspected that all members of the comet group later named after him, the Kreutz group , descended from an original body that broke when it passed the sun. He identified other possible members of the group, and further group members appeared in the 20th century in 1945, 1963, 1965 and 1970.

Charles Piazzi Smyth: The Great Comet of 1843

Marsden presented a scenario in 1989 in which the two comets C / 1843 D1 and C / 1880 C1 could be fragments of a common precursor comet that would have broken if it had passed the sun around 1487. This previous comet could in turn have been a fragment of the comet from -371. In this case, however, the orbital period of the comet from 1843 would only have been around 360 years, which contradicts previous knowledge. In addition, there are no reports of sun-grazing comets from the late 15th century .

According to this theory, there was still a problem for comet C / 1843 D1: In 1901 Kreutz had determined orbital parameters of the comet from 150 observation data over a period of 45 days, which indicated an orbital period of 512 years. This period also differs markedly from that of other sun grazes of the Kreutz group, which could be precisely determined. Before the advent of modern computers, Kreutz had calculated these values ​​using outdated mathematical methods and was unable to take into account the interference from the planets. In 2008, Sekanina and Chodas carried out new determinations of the orbital elements of the comet using modern mathematical methods, taking into account all planetary disturbances, relativistic effects and current reference data from comparison stars and a re-evaluation of 127 observation data. The calculation resulted in a probable orbital period of the comet between 600 and 800 years. This confirmed the comet's origin as a large (perhaps the largest) fragment of the sun-grazing comet X / 1106 C1 as possible and likely.

Orbit

An elliptical orbit could be determined for the comet , which is inclined by around 144 ° to the ecliptic . It thus runs in the opposite direction (retrograde) like the planets through its orbit. At the point of the orbit closest to the sun ( perihelion ), which the comet traversed on February 27, 1843, it was only 120,000 km at a distance of 0.82 million km from the sun. H. a good 1/6 of a solar radius over its surface. On January 27, it had already approached the earth to within 0.87 AU / 129.9 million km. On February 28th, it came close to Mercury up to 59.8 million km and Venus up to 104.8 million km, and on March 5, it came close to Earth again to 0.84 AU / 126.0 Million km.

The comet moves in an extremely elongated elliptical orbit around the sun. According to recent studies, the comet is probably a fragment of the sun-grazing comet X / 1106 C1 , after which its orbital period to its last passage through the inner solar system would have been 737 years. Under this assumption and with its unchanged existence, it could reach the point furthest from the sun ( aphelion ) of its orbit around the year 2190 , where it would be about 23 billion km from the sun, almost 160 times as far as the earth and over 5 -time as far as Neptune . Its orbital speed in aphelion is only about 0.01 km / s. The next perihelion of the comet could then possibly take place around the year 2540.

However, it is much more likely that the comet, like its direct predecessors and many other members of the Kreutz group, will continue to disintegrate. Such a spontaneous decay can occur at any point in its subsequent orbit around the sun, but when the fragments return to the inner solar system depends heavily on where and when this breakup happens (or has already happened). After decay, individual fragments could have new orbital times in a wide range from ½ to several times the old orbital period and could thus reappear sometime after the 22nd century at the earliest or after more than a thousand years.

Trivia

• The appearance of the comet is the subject of film in the German cinema and homeland film The Other Home - Chronicle of a Longing by filmmaker Edgar Reitz . In addition to a trick representation of the comet passage, the impression that the comet left on the inhabitants of the fictional community of Schabbach is shown.

See also

• List of comets
• Great comet

Magazine articles

• The comet . In: Illustrirte Zeitung . No. 1 . J. J. Weber, Leipzig July 1, 1843, p. 8 ( Wikisource ).  .
• AK, Robert Hermann Schomburgk : The appearance of the comet in the southern hemisphere . In: Illustrirte Zeitung . No. 4 . J. J. Weber, Leipzig July 22, 1843, p. 62-63 ( Wikisource ). 

Web links

Commons : Great Comet of 1843  - Collection of images, videos and audio files

• C / 1843 D1 (Great March Comet) on Cometography.com (English)

Individual evidence

1. ↑ ^{a b c} D. AJ Seargent: The Greatest Comets in History: Broom Stars and Celestial Scimitars . Springer, New York 2009, ISBN 978-0-387-09512-7 , pp. 208-211.
2. ^ GW Kronk: Cometography - A Catalog of Comets. Volume 2: 1800-1899 . Cambridge University Press, 2003, ISBN 0-521-58505-8 , pp. 129-137.
3. ^ Donald K. Yeomans: NASA JPL Solar System Dynamics: Great Comets in History. Retrieved June 17, 2014 . 
4. ^ DW Hamacher, RP Norris: Comets in Australian Aboriginal Astronomy. In: Journal for Astronomical History & Heritage. Vol. 14, No. 1, 2011, pp. 31-40 ( bibcode : 2011JAHH ... 14 ... 31H ).
5. ↑ BG Marsden: The Sungrazing Comet Group. In: The Astronomical Journal. Vol. 72, No. 9, 1967, pp. 1170-1183 ( bibcode : 1967AJ ..... 72.1170M ).
6. ^ Zdeněk Sekanina: Problems of Origin and Evolution of the Kreutz Family of Sun-grazing Comets. In: Acta Universitatis Carolinae. Mathematica et Physica. Vol. 8, No. 2, 1967, pp. 33-84 ( PDF; 4.73 MB ).
7. ↑ BG Marsden: The Sungrazing Comet Group. II. In: The Astronomical Journal. Vol. 98, No. 6, 1989, pp. 2306-221 ( bibcode : 1989AJ ..... 98.2306M ).
8. ↑ Zdenek Sekanina, Paul W. Chodas: Fragmentation Hierarchy of Bright Sungrazing Comets and the Birth and Orbital Evolution of the Kreutz System. I. Two-Superfragment Model. In: The Astrophysical Journal. Vol. 607, 2004, pp. 620-639 doi: 10.1086 / 383466 .
9. ↑ Zdenek Sekanina, Paul W. Chodas: Fragmentation Hierarchy of Bright Sungrazing Comets and the Birth and Orbital Evolution of the Kreutz System. II. The Case for Cascading Fragmentation. In: The Astrophysical Journal. Vol. 663, 2007, pp. 657-676 doi: 10.1086 / 517490 .
10. ^ I. Hasegawa, S. Nakano: Possible Kreutz Sungrazing Comets Found in Historical Records. In: Publications of the Astronomical Society of Japan. Vol. 53, 2001, pp. 931-941. ( PDF; 312 kB ).
11. ^ Zdenek Sekanina, Paul W. Chodas: A New Orbit Determination for Bright Sungrazing Comet of 1843. In: The Astrophysical Journal. Vol. 687, 2008, pp. 1415-1422 doi: 10.1086 / 592081 .
12. ↑ C / 1843 D1 (Great March Comet) in the Small-Body Database of the Jet Propulsion Laboratory (English).
13. ↑ SOLEX 11.0 A. Vitagliano. Archived from the original on September 18, 2015 ; accessed on May 2, 2014 .