Kilodegree Extremely Little Telescope

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Kilodegree Extremely Little Telescope
Alternative namesKELT
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The Kilodegree Extremely Little Telescope (or KELT) is an astronomical observation system formed by two robotic telescopes that are conducting a survey for transiting exoplanets around bright stars. The project is jointly administered by members of Ohio State University Department of Astronomy, [1] the Vanderbilt University Department of Physics and Astronomy [2] Astronomy Group, [3] the Lehigh University Department of Physics, [4] and the South African Astronomical Observatory (SAAO). [5]

Contents

KELT Telescopes

KELT consists of two telescopes, KELT-North [6] in Arizona in the United States, and KELT-South [7] at the SAAO observing station near Sutherland, South Africa.

Each KELT telescope consists of a wide field (26 degrees × 26 degrees) medium format telephoto lens with a 4.2 cm aperture, mounted in front of a 4k × 4k Apogee CCD. Each can also be equipped with an alternative narrower field (10.8 degrees × 10.8 degrees) lens with a 7.1 cm aperture for a narrow angle campaign mode. KELT-North uses an Apogee AP16E camera, while KELT South uses an Apogee U16M. The optical assemblies and cameras are mounted on Paramount ME [8] mounts manufactured by Software Bisque. [9] The telescopes were made with off-the-shelf components, and were thus much cheaper than many observatories. [10]

Goals

KELT is dedicated to discovering transiting exoplanets orbiting stars in the apparent magnitude range of 8 < V < 10. This is the region just fainter than the set of stars comprehensively surveyed for planets by the radial-velocity surveys, but brighter than those typically observed by most transit surveys.

Operations

Both KELT telescopes operate by sequentially observing a series of predefined fields around the sky all night, every night when the weather is good. All recordings are made with 150-second exposures, optimized to observe stars in the target magnitude range.

Discoveries

KELT has made several exoplanet discoveries and at least one brown dwarf (which may be an extremely massive Super-Jupiter instead) to date. Yellow rows in the table below indicate the planet is contained in a binary system.

Exoplanets

Star Constellation Right
ascension 		Declination App.
mag. 		Distance (ly) Spectral
type 		Planet Mass
(MJ)		 Radius
(RJ)		 Density
(g/cm3)		 Orbital
period
(d)		 Semimajor
axis
(AU)		 Orbital
eccentricity 		Inclination
(°)		Discovery
year
KELT-2A Auriga 06h 10m 39s+30° 57 268.77420F7V KELT-2Ab 1.4861.3064.113790.054980.088.52012
KELT-3 Leo 09h 54m 34.0s+30° 38 249.8580F6V KELT-3b 1.4181.3330.752.703390.041170.084.322012
KELT-4A Leo 10h 28m 15.011s+25° 34 23.59.98685F8V KELT-4Ab 0.8781.7062.98959330.043210.083.112015
KELT-6 Coma Berenices 13h 03m 56s+30° 38 2410.38724F8IV KELT-6b 0.431.190.3117.845630.0790.22 +0.12
0.10		88.812013
KELT-6c 3.711.161,2762.390.212015
KELT-7 Auriga 05h 13m 11s+33° 19 058.54420F2V KELT-7b 1.281.5330.4422.73477490.044150.083.762015
KELT-8 Hercules 18h 53m 13.31s24° 07 38.0910.85664G2V KELT-8b 0.661.620.1653.240.045500.04±0.0582.65±0.902015
KELT-9 Cygnus 20h 31m 27s+39° 56 207.56620B9.5V KELT-9b 2015
KELT-10 Telescopium 18h 58m 11.61s−47° 00 11.9110.62614G0V KELT-10b 0.681.40.3084.170.052500?88.612015
KELT-11 Sextans 10h 46m 49.66s−09° 23 57.718.04323G8/K0IV KELT-11b 0.1711.350.0094.740.06±0.0050.0007±0.001585.3±0.22017
KELT-12 Hercules 17h 50m 33.72s+36° 34 12.6310.591200F7III-IV KELT-12b 0.951.780.2095.030.067080.084.47±0.152017
KELT-13/WASP-167 Centaurus 13h 04m 10.51s−35° 32 58.3110.5711381F1V KELT-13/WASP-167b <81.582.020.036579.92017
KELT-14/WASP-122 Puppis 7h 13m 12.34s−42° 24 35.1411816G2V KELT-14/WASP-122b 1.2841.7430.3221.710.030.078.32016
KELT-15 Carina 07h 49m 39.59s−52° 07 13.5711.391,068G0V KELT-15Ab 0.911.4430.363.330.04088.32015
KELT-16 Cygnus 20h 57m 04.44s+31° 39 39.6311.721,469F7V KELT-16Ab [11] 2.751.4151.20 ± 0.180.970.02084.42017
KELT-17 Cancer 8h 22m 28.20s+13° 44 07.149.23743A7V KELT-17b 1.321.5250.463.080.0584.872016
KELT-18 Ursa Major 14h 26m 05.76s+59° 26 39.2910.161,057F4V KELT-18Ab [12] 1.181.570.3772.870.04082.902017
KELT-19 Canis Minor 07h 26m 02.29s+07° 36 56.189.86987A8V KELT-19Ab <4.071.91<0.7444.610.06485.142017
KELT-20 Cygnus 19h 38m 38.74s+31° 31 09.227.58446A2V KELT-20b <3.3821.741<0.8063.4740.050?86.122017
KELT-21 Cygnus 20h 19m 12.00s+32° 34 51.7610.481,556A6V KELT-21b <3.911.586<1.243.6120.05086.462018
KELT-22/WASP-173 Sculptor 23h 36m 40.38s−34° 36 42.6811.3766G3V KELT-22/WASP-173Ab 3.471.2852.021.3860.02085.22018
KELT-23 Ursa Minor 15h 28m 35.19s+66° 21 31.5410.31413G1V KELT-23b 0.941.320.5032.260.03085.372019
KELT-24 Ursa Major 10h 47m 38.35s+71° 39 21.168.33316F5.5V KELT-24b 5.181.273.135.550.070.0889.172019
KELT-25 Canis Major 07h 12m 29.55s−24° 57 12.829.631,443A4V
KELT-26/WASP-178 Lupus 15h 09m 04.89s−42° 42 17.799.951,410A1V KELT-26/WASP-178b 1.411.940.2383.350.06084.452019

Brown dwarfs

In addition, the survey has discovered brown dwarfs like KELT-1b.

Star Constellation Right
ascension 		Declination App.
mag. 		Distance (ly) Spectral
type 		Planet Mass
(MJ)		 Radius
(RJ)		 Density
(g/cm3)		 Orbital
period
(d)		 Semimajor
axis
(AU)		 Orbital
eccentricity 		Inclination
(°)		Discovery
year
KELT-1 Andromeda 00h 01m 26.92s+39° 23 01.710.00854F5V KELT-1b 27.231.1101.2175130.02470.087.80

Related Research Articles

<span class="mw-page-title-main">Astronomical transit</span> Term in astronomy

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<span class="mw-page-title-main">South African Astronomical Observatory</span> Observatory

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HD 82886 is an evolved subgiant star in the constellation Leo Minor. With an apparent magnitude 7.63, it is too faint to be seen with the unaided eye.

KELT-11b is an exoplanet orbiting around the yellow subgiant star KELT-11 about 320 light-years away from Earth. It is an inflated planet, one of the "puffiest planets" known, as a result of its close orbiting distance with its parent star. It has a radius 1.37 times that of Jupiter, but only 19% of its mass. It was discovered in 2016.

<span class="mw-page-title-main">KELT-9b</span> Hot Jovian exoplanet orbiting KELT-9

KELT-9b is an exoplanet and ultra-hot Jupiter that orbits the late B-type/early A-type star KELT-9, located about 670 light-years from Earth. Detected using the Kilodegree Extremely Little Telescope, the discovery of KELT-9b was announced in 2016. As of October 2022, it is the hottest known exoplanet.

KELT-18b is a hot Jupiter orbiting the F-type main sequence star KELT-18 approximately 1,058 light years away in the northern circumpolar constellation Ursa Major. The planet was discovered using the transit method, and was announced in June 2017.

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KELT-1 is a F-type main-sequence star. Its surface temperature is 6518±50 K. It is similar to the Sun in its concentration of heavy elements, with a metallicity Fe/H index of 0.008±0.073, but is much younger at an age of 1.75±0.25 billion years. The star is rotating very rapidly.

<span class="mw-page-title-main">KELT-10b</span> Exoplanet in the Telescopium constellation

KELT-10b is an exoplanet orbiting the G-type main-sequence star KELT-10 approximately 618 light-years away in the southern constellation Telescopium. It was discovered using the transit method, and was announced in 2016.

KELT-3 is a star in the zodiac constellation Leo. With an apparent magnitude of 9.82, it is too faint to be seen with the naked eye, but can be detected using a telescope. It is currently located around 690 light years away, based on parallax measurements.

<span class="mw-page-title-main">KELT-3b</span> Exoplanet orbiting KELT-3

KELT-3b is an extrasolar planet orbiting the F-type main-sequence star KELT-3 690 light years in the zodiac constellation Leo. It was discovered in 2013 by KELT's telescope in Arizona.

KELT-6, also known as BD+31 2447, is a star in the constellation Coma Berenices. With an apparent magnitude of 10.34, it is impossible to see with the unaided eye, but can be seen with a powerful telescope. The star is located 791 light years away from the Solar System based on parallax, but is drifting away with a radial velocity of 1.62 km/s.

<span class="mw-page-title-main">KELT-6b</span> Exoplanet orbiting KELT-6

KELT-6b is an exoplanet orbiting the F-type subgiant KELT-6 approximately 791 light years away in the northern constellation Coma Berenices. It was discovered in 2013 using the transit method, and was announced in 2014.

CD−34°8618, also known as KELT-13 or WASP-167, is a yellowish-white hued star located in the southern constellation of Centaurus. It has an apparent magnitude of 10.52, making it readily visible in medium sized telescopes, but not to the naked eye. Based on parallax measurements from the Gaia spacecraft, the object is estimated to be approximately 1,350 light years away from the Solar System. It appears to be drifting closer to it, having a radial velocity of −0.53 km/s.

KELT-24 is a single star in the constellation Ursa Major at a distance of approximately 316 light-years from Sun. The apparent magnitude of the star is +8.33m. The star's age is estimated to be about 1.6 billion years. As an F-type main-sequence star, it is similar to the Sun, but slightly hotter and more luminous.

References

  1. "The Ohio State University Department of Astronomy".
  2. "Vanderbilt Department of Physics and Astronomy". Archived from the original on 2012-06-16. Retrieved 2012-06-12.
  3. "Vanderbilt Astronomy Group".
  4. "The Lehigh Department of Physics".
  5. "South African Astronomical Observatory".
  6. Pepper, Joshua; et al. (2007). "The Kilodegree Extremely Little Telescope (KELT): A Small Robotic Telescope for Large-Area Synoptic Surveys". Publications of the Astronomical Society of the Pacific. 119 (858): 923–935. arXiv: 0704.0460 . Bibcode:2007PASP..119..923P. doi:10.1086/521836. S2CID   13967723.
  7. Pepper; et al. (2012). "The KELT-South Telescope". Publications of the Astronomical Society of the Pacific. 124 (913): 230–241. arXiv: 1202.1826 . Bibcode:2012PASP..124..230P. doi:10.1086/665044. S2CID   119207060.
  8. "Paramount ME". Archived from the original on 2012-07-02.
  9. "Software Bisque company page".
  10. Sample, Ian (2017-06-05). "Kelt-9b: astronomers discover hottest known giant planet". The Guardian. ISSN   0261-3077 . Retrieved 2023-11-28.
  11. Oberst, Thomas E.; Rodriguez, Joseph E.; Colón, Knicole D.; Angerhausen, Daniel; Bieryla, Allyson; Ngo, Henry; Stevens, Daniel J.; Stassun, Keivan G.; Gaudi, B. Scott; Pepper, Joshua; Penev, Kaloyan; Mawet, Dimitri; Latham, David W.; Heintz, Tyler M.; Osei, Baffour W.; Collins, Karen A.; Kielkopf, John F.; Visgaitis, Tiffany; Reed, Phillip A.; Escamilla, Alejandra; Yazdi, Sormeh; McLeod, Kim K.; Lunsford, Leanne T.; Spencer, Michelle; Joner, Michael D.; Gregorio, Joao; Gaillard, Clement; Matt, Kyle; Dumont, Mary Thea; et al. (2017). "KELT-16b: A Highly Irradiated, Ultra-short Period Hot Jupiter Nearing Tidal Disruption". The Astronomical Journal. 153 (3): 97. arXiv: 1608.00618 . Bibcode:2017AJ....153...97O. doi:10.3847/1538-3881/153/3/97. S2CID   42949556.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  12. McLeod, Kim K.; Rodriguez, Joseph E.; Oelkers, Ryan J.; Collins, Karen A.; Bieryla, Allyson; Fulton, Benjamin J.; Stassun, Keivan G.; Gaudi, B. Scott; Penev, Kaloyan; Stevens, Daniel J.; Colón, Knicole D.; Pepper, Joshua; Narita, Norio; Tsuguru, Ryu; Fukui, Akihiko; Reed, Phillip A.; Tirrell, Bethany; Visgaitis, Tiffany; Kielkopf, John F.; Cohen, David H.; Jensen, Eric L. N.; Gregorio, Joao; Baştürk, Özgür; Oberst, Thomas E.; Melton, Casey; Kempton, Eliza M.-R.; Baldrige, Andrew; Zhao, Y. Sunny; Zambelli, Roberto; et al. (2017). "KELT-18b: Puffy Planet, Hot Host, Probably Perturbed". The Astronomical Journal. 153 (6): 263. arXiv: 1702.01657 . Bibcode:2017AJ....153..263M. doi:10.3847/1538-3881/aa6d5d. S2CID   54667386.{{cite journal}}: CS1 maint: unflagged free DOI (link)
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