Sextans Explained

Sextans is a faint, minor constellation on the celestial equator which was introduced in 1687 by Polish astronomer Johannes Hevelius. Its name is Latin for the astronomical sextant, an instrument that Hevelius made frequent use of in his observations.

Characteristics

Sextans is a medium sized constellation bordering Leo to the north, touching on Hydra to the southwest, and Crater to the southeast. The recommended three-letter abbreviation for the constellation, as adopted by the International Astronomical Union in 1922, is "Sex".^[1] The official constellation boundaries, as set by Belgian astronomer Eugène Delporte in 1930, are defined by a square. In the equatorial coordinate system, the right ascension coordinates of these borders lie between and, while the declination coordinates are between +6.43° and −11.7°.^[2] Since it is close to the ecliptic plane, the Moon and planets regularly cross the constellation, especially its northeastern corner.

Notable features

Stars

See also: List of stars in Sextans.

John Flamsteed labeled 41 stars for the constellation.^[3] Francis Baily intended to give Bayer designations to some of the stars but because none of them were above magnitude 4.5, he left them unlettered.^[3] Rather, it was Benjamin Apthorp Gould who lettered some of the stars. He labeled the five brightest stars using Greek letters Alpha (α) to Epsilon (ε) in his Uranometria Argentina.^[3] All together, there are 38 stars that are brighter than or equal to apparent magnitude 6.5.^[4]

Bright stars

• Alpha Sextantis is the brightest star in the constellation and the only star above the fifth magnitude with an apparent magnitude of 4.49. It is an ageing A-type star of spectral class A0 III^[5] located 280 light-years away from the Solar System. At the age of 385 million years,^[6] it is exhausting hydrogen at its core and leaving the main sequence.
• γ Sextantis is the second brightest star in the constellation with an apparent magnitude of 5.05. It is a binary star consisting of two A-type main-sequence stars with classes of A1 V and A4 V respectively. The stars take 77.55 years to circle each other in an eccentric orbit and the system is located 280 light-years away from the Solar System. The separation of the stars is four-tenths of an arcsecond, making it difficult to observe without the use of a telescope with an aperture of 30 cm.
• β Sextantis is slightly fainter at magnitude 5.07; it is said to be 364 light-years distant. Beta Sextantis is a B-type main-sequence star of spectral class B6 V and it has been used as a standard in the MK spectral classification system. It is suspected to be a Alpha² Canum Venaticorum variable with a period of 15.4 days.

Multiple star systems

Sextans contains a few notable multiple star systems within its boundaries.

35 Sextantis is a triple star system consisting of two evolved K-type giants of equal mass, with both stars being twice as massive as the Sun.^[7] The secondary is itself a single-lined spectroscopic binary consisting of a companion and itself.^[7] The system is located approximately 700 light years away. The outer pair has a separation of 6.8" and both stars take roughly 23,000 years to orbit each other while the B subsystem takes 1,528 days to circle each other in a relatively eccentric orbit.^[8]

There are a few notable variable stars, including 25, 23 Sextantis, and LHS 292. NGC 3115, an edge-on lenticular galaxy, is the only noteworthy deep-sky object. It also lies near the ecliptic, which causes the Moon, and some of the planets to occasionally pass through it for brief periods of time.

The constellation is the location of the field studied by the COSMOS project, undertaken by the Hubble Space Telescope.

COSMOS project

Sextans B is a fairly bright dwarf irregular galaxy at magnitude 6.6, 4.3 million light-years from Earth. It is part of the Local Group of galaxies.

CL J1001+0220 is as of 2016 the most distant-known galaxy cluster at redshift z=2.506, 11.1 billion light-years from Earth.^[9]

In June 2015, astronomers reported evidence for population III stars in the Cosmos Redshift 7 galaxy (at z = 6.60) found in Sextans. Such stars are likely to have existed in the very early universe (i.e., at high redshift), and may have started the production of chemical elements heavier than hydrogen that are needed for the later formation of planets and life as we know it.^{[10] [11]}

See also

• Sextans (Chinese astronomy)

References

• Web site: . Sextans . The Constellations . International Astronomical Union .
• Book: Levy, David H. . Deep Sky Objects . . 2005 . 1-59102-361-0 . registration .
• Ian Ridpath and Wil Tirion (2007). Stars and Planets Guide, Collins, London. . Princeton University Press, Princeton. .

External links

• The Deep Photographic Guide to the Constellations: Sextans
• Clickable Sextans
• Star Tales – Sextans

Notes and References

1. Russell . Henry Norris . Henry Norris Russell . The new international symbols for the constellations . . 30 . 469 . 1922PA.....30..469R . 1922 .
2. Web site: International Astronomical Union IAU . www.iau.org.
3. Book: Wagman, Morton . 2003 . Lost Stars: Lost, Missing and Troublesome Stars from the Catalogues of Johannes Bayer, Nicholas Louis de Lacaille, John Flamsteed, and Sundry Others . The McDonald & Woodward Publishing Company . . 978-0-939923-78-6 . 290.
4. Web site: Constellations: Lacerta–Vulpecula . Star Tales . Ridpath, Ian. Self-published . 4 March 2016. Ian Ridpath .
5. Cowley . A. . Cowley . C. . Jaschek . M. . Jaschek . C. . A study of the bright stars. I. A catalogue of spectral classifications. . The Astronomical Journal . April 1969 . 74 . 375 . 0004-6256 . 10.1086/110819 . 121555804 . 1969AJ.....74..375C . free.
6. 10.3847/1538-3881/acdee4 . free . The Unexpected Optical and Ultraviolet Variability of the Standard Star α Sex (HD 87887) . 2023 . Monier . Richard . Bowman . Dominic M. . Lebreton . Yveline . Deal . Morgan . The Astronomical Journal . 166 . 2 . 73 . 2306.08551 . 2023AJ....166...73M .
7. Tokovinin . A. . Comparative statistics and origin of triple and quadruple stars . Monthly Notices of the Royal Astronomical Society . 389 . 2 . September 11, 2008 . 10.1111/j.1365-2966.2008.13613.x . 925–938 . 2008MNRAS.389..925T . 0806.3263 . free.
8. Tokovinin . A. A. . Gorynya . N. A. . New spectroscopic components in multiple systems. V. . Astronomy & Astrophysics . 465 . 1 . April 2007 . 0004-6361 . 10.1051/0004-6361:20066888 . 34100030 . 257–261 . 2007A&A...465..257T . free.
9. 1604.07404 . 10.3847/0004-637X/828/1/56 . Discovery of a galaxy cluster with a violently starbursting core at z=2.506 . The Astrophysical Journal . 828 . 1 . 2016 . Wang . Tao . Elbaz . David . Daddi . Emanuele . Finoguenov . Alexis . Liu . Daizhong . Schrieber . Corenin . Martin . Sergio . Strazzullo . Veronica . Valentino . Francesco . van Der Burg . Remco . Zanella . Anita . Cisela . Laure . Gobat . Raphael . Le Brun . Amandine . Pannella . Maurilio . Sargent . Mark . Shu . Xinwen . Tan . Qinghua . Cappelluti . Nico . Li . Xanxia. 56 . 2016ApJ...828...56W . 8771287 . free .
10. Sobral . David . Matthee . Jorryt . Darvish . Behnam . Schaerer . Daniel . Mobasher . Bahram . Röttgering . Huub J. A. . Santos . Sérgio . Hemmati . Shoubaneh . Evidence For POPIII-Like Stellar Populations In The Most Luminous LYMAN-α Emitters At The Epoch Of Re-Ionisation: Spectroscopic Confirmation . 4 June 2015 . . 10.1088/0004-637x/808/2/139 . 2015ApJ...808..139S . 808 . 2 . 139. 1504.01734 . 18471887 .
11. News: Overbye . Dennis . Dennis Overbye . Astronomers Report Finding Earliest Stars That Enriched Cosmos . 17 June 2015 . . 17 June 2015 .