Astronomy:WD 1856+534

WD 1856+534
	; Artist's impression of WD 1856+534 and its planet.
Observation data; Equinox J2000.0]] (ICRS)
Constellation	Draco
Right ascension	18h 57m 39.34s
Declination	+53° 30′ 33.30″
Characteristics
Evolutionary stage	white dwarf
Spectral type	DC(11?)
Apparent magnitude (J)	15.677±0.055
Apparent magnitude (H)	15.429±0.094
Apparent magnitude (K)	15.548±0.186
Astrometry
Proper motion (μ)	RA: −240.759±0.148 mas/yr ; Dec.: −52.514±0.143 mas/yr
Parallax (π)	40.3983±0.0705 mas
Distance	80.737±0.144 ly ; (24.754±0.044 pc)
Details
Mass	0.518±0.055 M☉
Radius	0.01310±0.00054 R☉
Surface gravity (log g)	7.915±0.030 cgs
Temperature	4710±60 K
Metallicity [Fe/H]	<−8.8 dex
Age	5.85±0.5 Gyr
Position (relative to G 229-20)
Angular distance	~43″
Observed separation; (projected)	1030+130; −55 AU
Other designations
	LP 141-14, LSPM J1857+5330, 2MASS J18573936+5330332, NLTT 47263, TIC 267574918, TOI-1690, WDS J18576+5331C, WISE J185739.62+533032.9
Database references
SIMBAD	data
Exoplanet Archive	data
Extrasolar Planets; Encyclopaedia	data

Short description: White dwarf located in the constellation Draco

WD 1856+534 is a white dwarf located in the constellation of Draco. At a distance of about 25 parsecs (80 ly) from Earth, it is the outer component of a visual triple star system consisting of an inner pair of red dwarf stars. The white dwarf displays a featureless absorption spectrum, lacking strong optical absorption or emission features in its atmosphere. It has an effective temperature of 4,700 K (4,430 °C; 8,000 °F), corresponding to an age of approximately 5.8 billion years.^[2] WD 1856+534 is approximately half as massive as the Sun, while its radius is much smaller, being 40% larger than Earth.^[3]

Planetary system

The white dwarf is known to host one exoplanet, WD 1856+534b, in orbit around it. The exoplanet was detected through the transit method by the Transiting Exoplanet Survey Satellite (TESS) between July and August 2019. An analysis of the transit data in 2020 revealed that it is a Jupiter-like giant planet with a radius over ten times that of Earth's, and orbits its host star closely at a distance of 0.02 astronomical units (AU), with an orbital period 60 times shorter than that of Mercury around the Sun. The unexpectedly close distance of the exoplanet to the white dwarf implies that it must have migrated inward after its host star evolved from a red giant to a white dwarf, otherwise it would have been engulfed by its star.^[2] This migration may be related to the fact that WD 1856+534 belongs to a hierarchical triple-star system: the white dwarf and its planet are gravitationally bound to a distant companion, G 229–20, which itself is a binary system of two red dwarf stars.^[2] Gravitational interactions with the companion stars may have triggered the planet's migration through the Lidov–Kozai mechanism^[4]^[5]^[6] in a manner similar to some hot Jupiters. An alternative hypothesis is that the planet instead has survived a common envelope phase.^[7] In the latter scenario, other planets engulfed before may have contributed to the expulsion of the stellar envelope.^[8]

The planetary transmission spectrum is gray and featureless, likely because of the high level of hazes.^[9]

The WD 1856+534 planetary system^[2]
Companion (in order from star)	Mass	Semimajor axis (AU)	Orbital period (days)	Eccentricity	Inclination	Radius
b	9.1±4.7^[9] M_J	0.0204±0.0012	1.4079405±0.0000011	~0	88.778±0.059°	10.4±1.0 R_⊕

References

↑ ^1.0 ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 ^1.6 ^1.7 ^1.8 "LP 141-14 -- White Dwarf". SIMBAD. Université de Strasbourg. http://simbad.u-strasbg.fr/simbad/sim-id?Ident=WD+1856%2B534.
↑ ^2.0 ^2.1 ^2.2 ^2.3 ^2.4 ^2.5 ^2.6 ^2.7 Vanderburg, AndrewExpression error: Unrecognized word "etal". (September 2020). "A giant planet candidate transiting a white dwarf". Nature 585 (7825): 363–367. doi:10.1038/s41586-020-2713-y. PMID 32939071. Bibcode: 2020Natur.585..363V.
↑ Potter, Steve (16 September 2020). "NASA Missions Spy First Possible 'Survivor' Planet Hugging White Dwarf Star". NASA. 20-086. https://www.nasa.gov/press-release/nasa-missions-spy-first-possible-survivor-planet-hugging-white-dwarf-star.
↑ Muñoz, Diego J.; Petrovich, Cristobal (2020-11-19). "Kozai Migration Naturally Explains the White Dwarf Planet WD1856b". The Astrophysical Journal 904 (1): L3. doi:10.3847/2041-8213/abc564. ISSN 2041-8213. Bibcode: 2020ApJ...904L...3M.
↑ O'Connor, Christopher E.; Liu, Bin; Lai, Dong (2020-11-30). "Enhanced Lidov-Kozai migration and the formation of the transiting giant planet WD1856+534b". Monthly Notices of the Royal Astronomical Society 501: 507–514. doi:10.1093/mnras/staa3723. ISSN 0035-8711.
↑ Stephan, Alexander P.; Naoz, Smadar; Gaudi, B. Scott (2021). "Giant Planets, Tiny Stars: Producing Short-period Planets around White Dwarfs with the Eccentric Kozai–Lidov Mechanism". The Astrophysical Journal 922 (1): 4. doi:10.3847/1538-4357/ac22a9. Bibcode: 2021ApJ...922....4S.
↑ Lagos, F.; Schreiber, M. R.; Zorotovic, M.; Gänsicke, B. T.; Ronco, M. P.; Hamers, Adrian S. (2021), "WD 1856 b: a close giant planet around a white dwarf that could have survived a common-envelope phase", Monthly Notices of the Royal Astronomical Society 501 (1): 676–682, doi:10.1093/mnras/staa3703, Bibcode: 2021MNRAS.501..676L
↑ Chamandy, Luke; Blackman, Eric G.; Nordhaus, Jason; Wilson, Emily (2021), "Successive common envelope events from multiple planets", Monthly Notices of the Royal Astronomical Society: Letters 502: L110–L114, doi:10.1093/mnrasl/slab017
↑ ^9.0 ^9.1 Alonso, R.; Rodríguez-Gil, P.; Izquierdo, P.; Deeg, H. J.; Lodieu, N.; Cabrera-Lavers, A.; Hollands, M. A.; Pérez-Toledo, F. M. et al. (2021), "A transmission spectrum of the planet candidate WD 1856+534 b and a lower limit to its mass", Astronomy & Astrophysics 649: A131, doi:10.1051/0004-6361/202140359, Bibcode: 2021A&A...649A.131A

External links

NASA Missions Spy First Possible ‘Survivor’ Planet Hugging White Dwarf Star, Sean Potter, NASA, 16 September 2020
Planet discovered transiting a dead star, Steven Parsons, Nature News and Views, 16 September 2020

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Original source: https://en.wikipedia.org/wiki/WD 1856+534. Read more

[SIMBAD-1] 1.0 ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 ^1.6 ^1.7 ^1.8 "LP 141-14 -- White Dwarf". SIMBAD. Université de Strasbourg. http://simbad.u-strasbg.fr/simbad/sim-id?Ident=WD+1856%2B534.

[Vanderburg2020-2] 2.0 ^2.1 ^2.2 ^2.3 ^2.4 ^2.5 ^2.6 ^2.7 Vanderburg, AndrewExpression error: Unrecognized word "etal". (September 2020). "A giant planet candidate transiting a white dwarf". Nature 585 (7825): 363–367. doi:10.1038/s41586-020-2713-y. PMID 32939071. Bibcode: 2020Natur.585..363V.

[NASA-20-086-3] Potter, Steve (16 September 2020). "NASA Missions Spy First Possible 'Survivor' Planet Hugging White Dwarf Star". NASA. 20-086. https://www.nasa.gov/press-release/nasa-missions-spy-first-possible-survivor-planet-hugging-white-dwarf-star.

[4] Muñoz, Diego J.; Petrovich, Cristobal (2020-11-19). "Kozai Migration Naturally Explains the White Dwarf Planet WD1856b". The Astrophysical Journal 904 (1): L3. doi:10.3847/2041-8213/abc564. ISSN 2041-8213. Bibcode: 2020ApJ...904L...3M.

[5] O'Connor, Christopher E.; Liu, Bin; Lai, Dong (2020-11-30). "Enhanced Lidov-Kozai migration and the formation of the transiting giant planet WD1856+534b". Monthly Notices of the Royal Astronomical Society 501: 507–514. doi:10.1093/mnras/staa3723. ISSN 0035-8711.

[6] Stephan, Alexander P.; Naoz, Smadar; Gaudi, B. Scott (2021). "Giant Planets, Tiny Stars: Producing Short-period Planets around White Dwarfs with the Eccentric Kozai–Lidov Mechanism". The Astrophysical Journal 922 (1): 4. doi:10.3847/1538-4357/ac22a9. Bibcode: 2021ApJ...922....4S.

[7] Lagos, F.; Schreiber, M. R.; Zorotovic, M.; Gänsicke, B. T.; Ronco, M. P.; Hamers, Adrian S. (2021), "WD 1856 b: a close giant planet around a white dwarf that could have survived a common-envelope phase", Monthly Notices of the Royal Astronomical Society 501 (1): 676–682, doi:10.1093/mnras/staa3703, Bibcode: 2021MNRAS.501..676L

[8] Chamandy, Luke; Blackman, Eric G.; Nordhaus, Jason; Wilson, Emily (2021), "Successive common envelope events from multiple planets", Monthly Notices of the Royal Astronomical Society: Letters 502: L110–L114, doi:10.1093/mnrasl/slab017

[Alonso2021-9] 9.0 ^9.1 Alonso, R.; Rodríguez-Gil, P.; Izquierdo, P.; Deeg, H. J.; Lodieu, N.; Cabrera-Lavers, A.; Hollands, M. A.; Pérez-Toledo, F. M. et al. (2021), "A transmission spectrum of the planet candidate WD 1856+534 b and a lower limit to its mass", Astronomy & Astrophysics 649: A131, doi:10.1051/0004-6361/202140359, Bibcode: 2021A&A...649A.131A

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Observation data Equinox J2000.0]] (ICRS)
Artist's impression of WD 1856+534 and its planet.
Constellation	Draco
Right ascension	18^h 57^m 39.34^s^[1]
Declination	+53° 30′ 33.30″^[1]
Characteristics
Evolutionary stage	white dwarf
Spectral type	DC(11?)^[1]
Apparent magnitude (J)	15.677±0.055^[1]
Apparent magnitude (H)	15.429±0.094^[1]
Apparent magnitude (K)	15.548±0.186^[1]
Astrometry

Proper motion (μ)	RA: −240.759±0.148^[1] mas/yr Dec.: −52.514±0.143^[1] mas/yr
Parallax (π)	40.3983±0.0705^[1] mas
Distance	80.737±0.144 ly (24.754±0.044^[2] pc)

Details^[2]

Mass	0.518±0.055 `M`_☉
Radius	0.01310±0.00054 `R`_☉
Surface gravity (log g)	7.915±0.030 cgs
Temperature	4710±60 K
Metallicity [Fe/H]	<−8.8 dex
Age	5.85±0.5 Gyr

Position (relative to G 229-20)^[2]
Angular distance	~43″
Observed separation (projected)	1030+130 −55 AU ^[2]
Other designations
LP 141-14, LSPM J1857+5330, 2MASS J18573936+5330332, NLTT 47263, TIC 267574918, TOI-1690, WDS J18576+5331C, WISE J185739.62+533032.9
Database references
SIMBAD	data
Exoplanet Archive	data
Extrasolar Planets Encyclopaedia	data

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