WASP-13b

WASP-13b / Cruinlagh
	Size comparison of WASP-13b with Jupiter.
Discovery
Discovered by	Skillen et al. (SuperWASP)
Discovery date	April 1, 2008
Detection method	Transit
Orbital characteristics
Semi-major axis	0.05379 +0.00059; −0.00077 AU
Orbital period (sidereal)	4.353011 (± 1.3e-05) d
Inclination	85.64 (± 0.24)
Star	WASP-13
Physical characteristics
Mean radius	1.365 +0.062; −0.054 RJ
Mass	0.485 +0.058; −0.052 MJ
Temperature	1,356 K (1,083 °C; 1,981 °F)

Last updated August 23, 2023

WASP-13b, also known as Cruinlagh,^[5] is an extrasolar planet that was discovered in 2008 in the orbit of the sunlike star WASP-13.^[1] The planet has a mass of nearly half that of Jupiter, but a radius five-quarters of the size of Jupiter. This low relative mass might be caused by a core that is of low mass or that is not present at all.^[1]

The planet orbits at approximately 5% of the distance between the Sun and Earth every four days. The star was observed several times between 2006 and 2009, at first through the SuperWASP program and later through focused follow-up observations. Analysis of collected radial velocity measurements led to the discovery of Cruinlagh, which was reported in a journal on April 7, 2009. A follow-up study published in 2011 investigated the cause for inflated planets such as Cruinlagh, and re-examined (and re-constrained) its mass, radius, density, and age.

Discovery

Between November 27, 2006, and April 1, 2007, 3329 images of the star WASP-13, by the SuperWASP-North program based at Roque de los Muchachos Observatory in the Canary Islands led to the identification of Gloas as host to a potentially transiting object.^[1] Photometric follow-up observations were taken on February 16, 2008, using the James Gregory Telescope (JGT) in Scotland, which took 1047 exposures of the star, although the last twenty images taken were obscured by cloud cover and were discarded.^[1] Using HD 80408 as a reference star along with JGT measurements, the astronomers investigating the system were able to create a light curve for the transiting planet.^[1]

Gloas was observed between February 11 and 15 in 2008 by the SOPHIE échelle spectrograph at the Haute-Provence Observatory in France, determining the radial velocity of the transiting body. Use of the FIES echelle spectrograph at the Nordic Optical Telescope in the Canary Islands gained other spectral measurements that yielded the characteristics of the star.^[1] Analysis of the SOPHIE and FIES data were used to constrain some of the orbiting body's characteristics. The discovery of the orbiting body's mass using radial velocity measurements led to its confirmation as the planet WASP-13b.^[1]

The discovery of Cruinlagh was reported in the journal Astronomy and Astrophysics by the European Southern Observatory on May 19, 2009. The discovery paper was received by the journal on April 7, 2009.^[1]

Later, between 2009 and 2011, another team of astronomers observed Cruinlagh and WASP-21b to find what caused some Hot Jupiters to have anomalously high radii. The RISE photometric camera on the Liverpool Telescope was used to detect further transits. Two partial transits and two full transits were observed during this period, although the quality of both full transits was slightly compromised because of passing cloud cover. The collected observations, along with the JGT observations that were used to confirm the planet, were scaled to filter out errors such as background noise.^[2] The data was then used to re-define Cruinlagh's parameters, including its age, mass, radius, and density. The study also noted that a limb darkening effect was present, a characteristic that may affect future atmospheric studies of the planet.^[2]

Host star

Gloas is a sunlike G-type star located in the Lynx constellation. Measurements taken by FIES and SOPHIE did not constrain the mass, radius, or age well;^[1] however, a later 2011 study using the Liverpool Telescope better-constrained those parameters.^[2] The star's mass is estimated at 1.09 times the mass of the Sun, its radius at 1.559 times that of the Sun, and its density at 0.288 time's the Sun's density. These characteristics are re-defined taking limb darkening into account.^[2] The star's metallicity, which is measured by iron content, is placed roughly at [Fe/H] = 0, similar to that of the Sun. Also, the star's estimated effective temperature is 5826 K, slightly warmer than the Sun.^[3]

Gloas has an apparent magnitude of 10.42, making it invisible to the unaided eye as seen from Earth.^[3]

Characteristics

Cruinlagh is a transiting planet with an estimated mass that is (including limb darkening) 0.477 times that of Jupiter and a radius that is 1.389 times Jupiter's radius. The planet is, in other words, less than half the mass of Jupiter, but slightly less than fourteen tenths its size.^[2] The planet's low mass can mostly likely be attributed to the presence of a low-mass core, or to the total lack of a core, according to the discovery paper.^[1] Cruinlagh, which orbits its host star at a distance of 0.05362 AU,^[2] circles its star completely every 4.35298 days.^[3] The 2011 study on the planet recognized Cruinlagh as the fifth-lowest-density extrasolar planet known, behind Kepler-7b; WASP-17b; TrES-4b; and CoRoT-5b.^[2]

Cruinlagh has an orbital inclination of 86.9º, which means that it orbits almost edge-on as seen from Earth.^[3]

Naming

The planet was originally named WASP-13b, as the second object in the WASP-13 system.

In 2019 the IAU announced that WASP-13 and its planet WASP-13b would be given official names chosen by school children from Cronk y Berry school, Isle of Man.^[6]^[7] The chosen names were Gloas for WASP-13 and Cruinlagh for WASP-13b, the Manx words for 'to shine' and 'to orbit' respectively.^[8]^[5]

Related Research Articles

XO-1b is an extrasolar planet approximately 536 light-years away from Earth.

Upsilon Andromedae d, formally named Majriti, is a super-Jupiter exoplanet orbiting within the habitable zone of the Sun-like star Upsilon Andromedae A, approximately 44 light-years away from Earth in the constellation of Andromeda. Its discovery made it the first multiplanetary system to be discovered around a main-sequence star, and the first such system known in a multiple star system. The exoplanet was found by using the radial velocity method, where periodic Doppler shifts of spectral lines of the host star suggest an orbiting object.

HAT-P-1b is an extrasolar planet orbiting the Sun-like star HAT-P-1, also known as ADS 16402 B. HAT-P-1 is the dimmer component of the ADS 16402 binary star system. It is located roughly 521 light years away from Earth in the constellation Lacerta. HAT-P-1b is among the least dense of any of the known extrasolar planets.

WASP-6b, also named Boinayel, is an extrasolar planet approximately 600 light years away in the constellation Aquarius. It was discovered in 2008, by the WASP survey, by astronomical transit across its parent star WASP-6. This planet orbits only 4% that of Earth-Sun distance. The planet has mass half that of Jupiter, but its insolation has forced a thermal expansion of its radius over that of Jupiter. The planet is an inflated Hot Jupiter. Starspots on the host star WASP-6 helped to refine the measurements of the mass and the radius of the planet.

HD 8574 b is an extrasolar planet discovered in 2001 by a team of European astronomers using Doppler spectroscopy as part of the ELODIE Planet Search Survey, and was published in a paper with five other planets. HD 8574 b is in the orbit of host star HD 8574. The planet is at most two times the mass of Jupiter, orbiting every 227 days at three quarters of the distance between the Earth and Sun. HD 8574 b has a very elliptical orbit, far more than that of Jupiter.

WASP-15b, formally named Asye, is an extrasolar planet discovered in 2008 by the SuperWASP collaboration, which seeks to discover exoplanets that transit their host stars. The planet orbits its host star at a distance of 0.05 AU every four days. The mass of this planet is about one half that of Jupiter, but its radius is nearly 50% larger than Jupiter's, making the density of this planet only one quarter that of water; it is thought that some other form of heating must explain its extremely low density. WASP-15b's discovery was published on April 29, 2009.

WASP-13, also named Gloas, is a star in the Lynx constellation. The star is similar, in terms of metallicity and mass, to the Sun, although it is hotter and most likely older. The star was first observed in 1997, according to the SIMBAD database, and was targeted by SuperWASP after the star was observed by one of the SuperWASP telescopes beginning in 2006. Follow-up observations on the star led to the discovery of planet Cruinlagh in 2008; the discovery paper was published in 2009.

WASP-15, also named Nyamien, is a magnitude 11 star located about 1000 light-years away in the constellation Centaurus. The star, which is more massive, larger, hotter, and more luminous than the Sun, is also less metal-rich than the Sun. WASP-15 has one known planet in its orbit, WASP-15b; the planet is a Hot Jupiter with an anomalously high radius, a phenomenon which may be explained by the presence of an internal heat source. The star was first observed by the SuperWASP program in 2006; future measurements in 2007 and 2008, as well as follow-up observations and analysis, eventually led to the discovery of WASP-15b using the transit method and Doppler spectroscopy.

XO-5b "Makropulos" is an extrasolar planet approximately 910 light years away in the constellation of Lynx. This planet was found by the transit method using the XO Telescope and announced in May 2008. It was also independently discovered by the HATNet Project. The planet has a mass and radius just slightly larger than that of Jupiter. This planet orbits very close to the G-type parent star, as it is typical for transiting planets, classing this as Hot Jupiter. It takes only 4.188 days to orbit at an orbital distance of 0.0488 AU).

WASP-17b is an exoplanet in the constellation Scorpius that is orbiting the star WASP-17. Its discovery was announced on 11 August 2009. It is the first planet discovered to have a retrograde orbit, meaning it orbits in a direction counter to the rotation of its host star. This discovery challenged traditional planetary formation theory. In terms of diameter, WASP-17b is one of the largest exoplanets discovered and at half Jupiter's mass, this made it the most puffy planet known in 2010. On 3 December 2013, scientists working with the Hubble Space Telescope reported detecting water in the exoplanet's atmosphere.

Kepler-7b is one of the first five exoplanets to be confirmed by NASA's Kepler spacecraft, and was confirmed in the first 33.5 days of Kepler's science operations. It orbits a star slightly hotter and significantly larger than the Sun that is expected to soon reach the end of the main sequence. Kepler-7b is a hot Jupiter that is about half the mass of Jupiter, but is nearly 1.5 times its size; at the time of its discovery, Kepler-7b was the second most diffuse planet known, surpassed only by WASP-17b. It orbits its host star every five days at a distance of approximately 0,06 AU. Kepler-7b was announced at a meeting of the American Astronomical Society on January 4, 2010. It is the first extrasolar planet to have a crude map of cloud coverage.

Kepler-5b is one of the first five planets discovered by NASA's Kepler spacecraft. It is a Hot Jupiter that orbits a subgiant star that is more massive, larger, and more diffuse than the Sun is. Kepler-5 was first flagged as the location of a possibly transiting planet, and was reclassified as a Kepler Object of Interest until follow-up observations confirmed the planet's existence and many of its characteristics. The planet's discovery was announced at a meeting of the American Astronomical Society on January 4, 2010. The planet has approximately twice the mass of Jupiter, and is about 1.5 times larger. It is also fifteen times hotter than Jupiter. Kepler-5b orbits Kepler-5 every 3.5 days at a distance of approximately 0.051 AU.

WASP-43b, formally named Astrolábos, is a transiting planet in orbit around the young, active, and low-mass star WASP-43 in the constellation Sextans. The planet is a hot Jupiter with a mass twice that of Jupiter, but with a roughly equal radius. WASP-43b was flagged as a candidate by the SuperWASP program, before they conducted follow-ups using instruments at La Silla Observatory in Chile, which confirmed its existence and provided orbital and physical characteristics. The planet's discovery was published on April 14, 2011.

WASP-43 is a K-type star about 284 light-years away in the Sextans constellation. It is about half the size of the Sun, and has approximately half the mass. WASP-43 has one known planet in orbit, a Hot Jupiter called WASP-43b. At the time of publishing of WASP-43b's discovery on April 15, 2011, the planet was the most closely orbiting Hot Jupiter discovered. The small orbit of WASP-43b is thought to be caused by WASP-43's unusually low mass. WASP-43 was first observed between January and May 2009 by the SuperWASP project, and was found to be cooler and slightly richer in metals than the Sun. WASP-43 has also been found to be an active star that rotates at a high velocity.

WASP-24b is a Hot Jupiter detected in the orbit of the F-type star WASP-24. The planet is approximately the same size and mass of Jupiter, but it orbits at approximately 4% of the mean distance between the Earth and the Sun every two days. WASP-24b was observed by SuperWASP starting in 2008; after two years of observations, follow-ups led to the collection of the information that led to the planet's discovery.

WASP-44b is a closely orbiting Jupiter-sized planet found in the orbit of the sunlike star WASP-44 by the SuperWASP program, which searches for transiting planets that cross in front of their host stars as seen from Earth. After follow-up observations using radial velocity, the planet was confirmed. Use of another telescope at the same observatory detected WASP-44 transiting its star. The planet completes an orbit around its star every two and a half days, and orbits at roughly 0.03 AU from its host star. WASP-44b's discovery was reported by the Royal Astronomical Society in May 2011.

WASP-44 is a G-type star in the constellation Cetus that is orbited by the Jupiter-size planet WASP-44b. The star is slightly less massive and slightly smaller than the Sun; it is also slightly cooler, but is more metal-rich. The star was observed by SuperWASP, an organization searching for exoplanets, starting in 2009; manual follow-up observations used WASP-44's spectrum and measurements of its radial velocity led to the discovery of the transiting planet WASP-44b. The planet and its star were presented along with WASP-45b and WASP-46b on May 17, 2011 by a team of scientists testing the idea that hot Jupiters tend to have circular orbits, an assumption that is made when the orbital eccentricity of such planets are not well-constrained.

HAT-P-33b is a planet in the orbit of HAT-P-33, which lies 1,310 light years away from Earth. Its discovery was reported in June 2011, although it was suspected to be a planet as early as 2004. The planet is about three-fourths the mass of Jupiter, but is almost eighty percent larger than Jupiter is; this inflation has, as with the discovery of similar planets WASP-17b and HAT-P-32b, raised the question of what causes these planets to become so large.

Kepler-14b is an extrasolar planet in orbit around the primary star of the binary Kepler-14 system. It is currently the only planet known to exist in this star system. Kepler-14b is 8.4 times the mass of Jupiter and has a radius 1.14 times that of Jupiter, and it orbits its host star every 6.79 days. It was discovered by NASA-led Kepler mission, which noted the planet as a planetary candidate as early as March 2009, around the same time as the discovery of the first five planets discovered by Kepler. However, the team was unable to confirm the planet until extensive follow-up observations, as high-resolution imaging resolved the star Kepler-14 as a closely orbiting binary system. The Kepler team would have not noticed that Kepler-14 was a binary star based solely on initial radial velocity measurements, and found that if they had not realized this, their data on Kepler-14b would have been very inaccurate.

Kepler-12b is a hot Jupiter that orbits G-type star Kepler-12 some 900 parsecs (2,900 ly) away. The planet has an anomalously large radius that could not be explained by standard models at the time of its discovery, almost 1.7 times Jupiter's size while being 0.4 times Jupiter's mass. The planet was detected by the Kepler spacecraft, a NASA project searching for planets that transit their host stars. The discovery paper was published on September 5, 2011.

References

1 2 3 4 5 6 7 8 9 10 11 Skillen, I.; et al. (2009). "The 0.5Mj transiting exoplanet WASP-13b". Astronomy and Astrophysics. 502 (1): 391–394. arXiv: 0905.3115 . Bibcode:2009A&A...502..391S. doi:10.1051/0004-6361/200912018. S2CID 16678658.
1 2 3 4 5 6 7 8 9 10 11 Barros, S. C. C.; et al. (2011). "High precision transit observations of the exoplanetWASP-13b with the RISE instrument". Monthly Notices of the Royal Astronomical Society. 419 (2): 1248–1253. arXiv: 1108.3996 . Bibcode:2012MNRAS.419.1248B. doi:10.1111/j.1365-2966.2011.19784.x. S2CID 54688068.
1 2 3 4 5 Jean Schneider (2009). "Notes for star WASP-13". Extrasolar Planets Encyclopedia. Archived from the original on 5 May 2011. Retrieved 28 May 2011.
↑ "WASP Planets" . Retrieved 2009-05-27.
1 2 "Approved names (§ United Kingdom)". NameExoWorlds . IAU . Retrieved 19 December 2019.
↑ "NameExoWorlds". 2019. Retrieved 6 September 2019.
↑ "IAU UK Exoworld Naming Competition". 2019. Retrieved 6 September 2019.
↑ "Gloas and Cruinlagh: Planet and star become first with Manx names". BBC News. 17 December 2019.

External links

Media related to Cruinlagh at Wikimedia Commons

WASP Planets

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[Skillen2009-1] 1 2 3 4 5 6 7 8 9 10 11 Skillen, I.; et al. (2009). "The 0.5Mj transiting exoplanet WASP-13b". Astronomy and Astrophysics. 502 (1): 391–394. arXiv: 0905.3115 . Bibcode:2009A&A...502..391S. doi:10.1051/0004-6361/200912018. S2CID 16678658.

[Barros2011-2] 1 2 3 4 5 6 7 8 9 10 11 Barros, S. C. C.; et al. (2011). "High precision transit observations of the exoplanetWASP-13b with the RISE instrument". Monthly Notices of the Royal Astronomical Society. 419 (2): 1248–1253. arXiv: 1108.3996 . Bibcode:2012MNRAS.419.1248B. doi:10.1111/j.1365-2966.2011.19784.x. S2CID 54688068.

[EPE-3] 1 2 3 4 5 Jean Schneider (2009). "Notes for star WASP-13". Extrasolar Planets Encyclopedia. Archived from the original on 5 May 2011. Retrieved 28 May 2011.

[WASPs!-4] "WASP Planets" . Retrieved 2009-05-27.

[IAU_Approved-5] 1 2 "Approved names (§ United Kingdom)". NameExoWorlds . IAU . Retrieved 19 December 2019.

[IAU-6] "NameExoWorlds". 2019. Retrieved 6 September 2019.

[exoworld-7] "IAU UK Exoworld Naming Competition". 2019. Retrieved 6 September 2019.

[8] "Gloas and Cruinlagh: Planet and star become first with Manx names". BBC News. 17 December 2019.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]