Rigel

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Rigel, Beta Ori
Orion constellation map.svg

Rigel in the constellation Orion
Observation data
Epoch J2000.0      Equinox J2000.0
Constellation Orion
Pronunciation /ˈrəl/ or /-ɡəl/[1]
Right ascension 05h 14m 32.27210s[2]
Declination −08° 12′ 05.8981″[2]
Apparent magnitude (V) 0.13[3] (0.05 - 0.18[4])
Characteristics
Spectral type B8 Iae[5]
U−B color index −0.66[6]
B−V color index −0.03[6]
Variable type Alpha Cygni[7]
Astrometry
Radial velocity (Rv) 17.8±0.4[8] km/s
Proper motion (μ) RA: +1.31[2] mas/yr
Dec.: +0.50[2] mas/yr
Parallax (π) 3.78 ± 0.34[2] mas
Distance 860 ± 80 ly
(260 ± 20 pc)
Absolute magnitude (MV) −7.92±0.28[5]
Details
Mass 21±3[9] M
Radius 78.9±7.4[5] R
Luminosity (bolometric) 1.20+0.25
−0.21
×105[5] L
Surface gravity (log g) 1.75±0.10[9] cgs
Temperature 12100±150[9] K
Metallicity [Fe/H] −0.06±0.10[10] dex
Rotational velocity (v sin i) 25±3[9] km/s
Age 8±1[10] Myr
Other designations
Rigel, Algebar, Elgebar, β Ori, 19 Ori, HD 34085, HR 1713, HIP 24436, SAO 131907[11]
Database references
SIMBAD data

Rigel, also known by its Bayer designation Beta Orionis (β Ori, β Orionis), is the brightest star in the constellation Orion and the seventh brightest star in the night sky, with visual magnitude 0.13. The star as seen from Earth is actually a triple star system, with the primary star (Rigel A) a blue-white supergiant of absolute magnitude −7.84 and around 120,000 times as luminous as the Sun. It has exhausted its core hydrogen and swollen out to 79 times the Sun's radius. An Alpha Cygni variable, it pulsates periodically. Visible in small telescopes and 500 times fainter than Rigel A, Rigel B is itself a spectroscopic binary system, consisting of two main sequence blue-white stars of spectral type B9V that are themselves estimated to be 2.5 and 1.9 times as massive as the Sun.

Visibility

The apparent magnitude of Rigel is listed in the astronomical database SIMBAD at 0.13, making it on average the seventh brightest star in the celestial sphere excluding the Sun—just fainter than Capella.[12] It is an irregular pulsating variable with a visual range of magnitude 0.05–0.18. Although Rigel has the Bayer designation "beta", it is almost always brighter than Alpha Orionis (Betelgeuse). Since 1943, the spectrum of this star has served as one of the stable anchor points by which other stars are classified.[13] Rigel is the third most inherently luminous first magnitude star after Deneb and Betelgeuse. Rigel has a color index (B–V) of −0.03, meaning it appears white or lightly blue-white.[14]

Culminating at midnight on 12 December, and at 9 pm on 24 January, Rigel is most visible in winter evenings in the northern hemisphere and summer in the southern.[15] In the southern hemisphere, Rigel is the first bright star of Orion visible as the constellation rises.[16] In stellar navigation, Rigel is one of the most important navigation stars, since it is bright, easily located and equatorial, which means it is visible all around the world's oceans (the exception, areas within 8° of the North Pole).

Properties

Rigel's place at top centre on the Hertzsprung-Russell diagram

Spectroscopic estimates of Rigel's distance place its distance between 700 and 900 light-years (210 and 280 parsecs). Hipparcos's 2007 measurement of its parallax gives a distance of 860 light-years (260 parsecs), with a margin of error of about 9% (80 light-years).[2] Moravveji and colleagues calculate a luminosity for Rigel based on this distance of 120,000 times that of the Sun.[5] Its surface temperature is around 12,100 K. The interferometer-measured angular diameter of this star, after correction for limb darkening, is 2.75±0.01 mas.[17] At its estimated distance, this yields a physical size of about 79 times the radius of the Sun.[5] Przybilla and colleagues used atmospheric modelling in 2006 to come up with a distance of 360 ± 40 parsecs (1,170 ± 130 light-years). They calculated it to be around 218,000 times as luminous as the Sun, and have around 21±3 solar masses and 109±12 times its radius.[10] The CMFGEN code is an atmosphere code used to determine the properties of massive stars from analysing their spectrum and atmosphere. Analysis of Rigel using this method yields a luminosity 279,000 times that of the Sun, a radius 115 times that of the Sun and stellar wind velocity of 671,080 miles per hour.[18]

Rigel is a blue supergiant that has exhausted burning its core hydrogen fuel and left the main sequence, expanding and brightening as it progresses across the Hertzsprung–Russell diagram. Przybilla estimated that it has lost around 3 solar masses, beginning life as a star of 24 ± 3 solar masses, over its life span of 7 to 9 million years to date.[10] It will end its stellar life as a type II supernova, exploding and in the process flinging out material that will serve to seed future generations of stars.[7] It is one of the closest supernova progenitors to Earth.[5]

Rigel's variability is complex and is caused by stellar pulsations similar to those of Deneb, the prototype of the class of Alpha Cygni pulsating stars. The radial velocity variations of Rigel proves that it simultaneously oscillates in at least 19 non-radial modes with periods ranging from about 1.2 to 74 days.[5] It is notable among other blue supergiant stars in the sense that its pulsations are powered by the nuclear reactions in the hydrogen-burning shell, the star also burns helium on its core.[7] Rigel was identified as belonging to the Alpha Cygni variables in 1998 by Christoffel Waelkens and colleagues.[19]

As it is both bright and moving through a region of nebulosity, Rigel lights up several dust clouds in its vicinity, most notably the IC 2118 (the Witch Head Nebula).[20] Rigel is also associated with the Orion Nebula, which—while more or less along the same line of sight as the star—is almost twice as far away from Earth. Despite the difference in distance, projecting Rigel's path through space for its expected age brings it close to the nebula. As a result, Rigel is sometimes classified as an outlying member of the Orion OB1 Association, along with many of the other bright stars in that region of the sky; more specifically, it is a member of the Taurus-Orion R1 Association, with the OB1 Association reserved for stars closer to the nebula and more recently formed.[20]

Space photometry

Computer generated image of Rigel compared to the Sun (to scale)

Rigel was observed with the Canadian MOST satellite for nearly 28 days in 2009. The light variations in this supergiant star is in milli magnitude level. The gradual changes in the flux highlights the presence of long-period pulsation modes in the star.[5]

Spectroscopy

Rigel is surrounded by a shell of expelled gas. This occurs because when a red giant becomes a blue giant, the slow stellar winds of the former red giant are compressed by the faster winds of the blue giant, therefore creating a shell.[20]

The general spectral type of Rigel as B8 is well-established and it has been used as a defining point of the spectral classification sequence for supergiants. However the details of the spectrum vary considerably owing to periodic atmospheric eruptions. The spectral lines show emission, absorption, line doubling, P Cygni profiles, and inverse P Cygni profiles, with no obvious periodicity.[21] This has resulted in classification as B8Iab, B8Iae, or blendings by different authors.

System

Rigel has been a known visual binary since at least 1831, when it was first measured by F. G. W. Struve. Though Rigel B is not particularly faint at magnitude 6.7, its closeness to Rigel A—which is over 500 times brighter—makes it a challenging target for telescopes smaller than 150 mm (5.9 in).[22] However a good 7 cm (2.8 in) telescope will reveal Rigel B at 150× power and good seeing. At Rigel's estimated distance, Rigel B is separated from its primary by over 2200 AU (12 lightdays); not surprisingly, there has been no sign of orbital movement, though they share the same proper motion.[20][22] The Rigel system is known to be composed of three stars. A fourth star in the system is sometimes proposed, but it is generally considered that this is a misinterpretation of the main star's variability, which may be caused by physical pulsation of the surface.[22]

Rigel B is itself a spectroscopic binary system, consisting of two main sequence stars that orbit their center of gravity every 9.8 days. The stars both belong to the spectral class B9V; Rigel B is the more massive of the pair, at 2.5 versus 1.9 solar masses.[20][22] There was long-running controversy in the late 19th and early 20th century over the possible visible binarity of Rigel B. A number of experienced observers claimed to see it as a double, while others were unable to confirm it; indeed, the proponents themselves were sometimes unable to duplicate their results. Observations since have ruled out the likelihood of a visible companion to Rigel B.[20][22]

Names

The modern name Rigel is first recorded in the Alfonsine Tables of 1521. It is derived from the Arabic name Rijl Jauzah al Yusrā, "the left leg (foot) of Jauzah" (i.e. rijl meaning "leg, foot").[23] The Arabic name can be traced to the 10th century.[24] "Jauzah" was a proper name of the Orion figure, an alternative Arabic name was رجل الجبار riǧl al-ǧabbār, "the foot of the great one", which is the source of the rarely used variant names Algebar or Elgebar. The Alphonsine Tables saw its name split into "Rigel" and "Algebar", with the note, "et dicitur Algebar. Nominatur etiam Rigel."[25] Alternate spellings from the 17th century include Regel by Giovanni Battista Riccioli, Riglon by Wilhelm Schickard, and Rigel Algeuze or Algibbar by Edmund Chilmead.[23]

Rigel is presumably the star known as "Aurvandil's toe" in Norse mythology.[26]

In Chinese astronomy, Rigel is the seventh star of the "Three Stars" asterism, 参宿七 (Shēnxiù Qī). In Japan, the Minamoto or Genji clan had chosen Rigel and its white color as its symbol, calling the star Genji-boshi (源氏星), while the Taira or Heike clan adopted Betelgeuse and its red color. The two powerful families fought a legendary war in Japanese history, the stars seen as facing each other off and only kept apart by the Belt.[27][28][29] Rigel was also known as Gin-waki, (銀脇), "the Silver (Star) beside (Mitsu-boshi)."

Rigel was known as Yerrerdet-kurrk to the Wotjobaluk koori of southeastern Australia, and held to be the mother-in-law of Totyerguil (Altair). The distance between them signified the taboo preventing a man from approaching his mother-in-law.[30] The indigenous Boorong people of northwestern Victoria named Rigel as Collowgullouric Warepil.[31] The Wardaman people of northern Australia know Rigel as the Red Kangaroo Leader Unumburrgu and chief conductor of ceremonies in a songline when Orion is high in the sky. The river Eridanus marks a line of stars in the sky leading to it, and the other stars of Orion are his ceremonial tools and entourage. Betelgeuse is Ya-jungin "Owl Eyes Flicking", watching the ceremonies.[32]

The Māori people named Rigel as Puanga and was said to be a daughter of Rehua (Antares), the chief of all stars.[33] Its heliacal rising also presaged the appearance of Matariki (the Pleiades) in the dawn sky which marked the Māori New Year in late May or early June. The Moriori people of the Chatham Islands, as well as some Maori groups in New Zealand marked the start of their New Year with Rigel rather than the Pleiades.[34] Puaka was a local variant used in the South Island.[35]

The Lacandon people knew it as tunsel "little woodpecker".[36]

See also

References

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  26. Richard Cleasby, An Icelandic-English Dictionary, Clarendon Press, 1874, s.v. auvandils-tá.
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  28. "Daijirin" p. 815 ISBN 978-4-385-13902-9
  29. Hōei Nojiri "Shin seiza jyunrei" p. 19 ISBN 978-4-12-204128-8
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  33. p. 419, Mythology: Myths, Legends and Fantasies, Janet Parker, Alice Mills, Julie Stanton, Durban, Struik Publishers, 2007.
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External links

Coordinates: Sky map 05h 14m 32.272s, −08° 12′ 05.91″