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WD 1425+540

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WD 1425+540

Artist's impression of WD 1425+540 with a Kuiper Belt analogue, a hypothetical exoplanet and an infalling exocomet
Credit: NASA, ESA, and Z. Levy (STScI)
Observation data
Epoch J2000      Equinox J2000
Constellation Boötes
Right ascension 14h 27m 36.17s
Declination +53° 48′ 28.00″
Apparent magnitude (V) 15.0
Characteristics
Evolutionary stage white dwarf
Spectral type DBAZ4[1]
Astrometry
Radial velocity (Rv)33.7 ±7.8[2] km/s
Proper motion (μ) RA: -344.789 ±0.026 mas/yr[3]
Dec.: 140.017 ±0.027 mas/yr[3]
Parallax (π)19.4036 ± 0.0235 mas[3]
Distance168.1 ± 0.2 ly
(51.54 ± 0.06 pc)
Details[4]
Mass0.628754 ±0.016417 M
Surface gravity (log g)8.067444 ±0.027198 cgs
Temperature14548.60 ±233.48 K
Other designations
G 200-39, EGGR 295, ** GIC 119, GALEX J142735.9+534829, 2MASS J14273615+5348280, NLTT 37443, WD 1425+54
Database references
SIMBADdata

WD 1425+540 (G200-39) is a white dwarf that accreted an exocomet (exo-Kuiper Belt Object, exo-KBO). This is evident from the pollution of the white dwarf atmosphere with metals, especially the pollution with nitrogen. WD 1425+540 is the first white dwarf with detected nitrogen.[5][6] The white dwarf has a K-dwarf companion called G200-40, about 40 arcseconds away.[5] The white dwarf nature of the object was discovered by Greenstein in 1974.[7]

The white dwarf is the prototype of the DBA spectral type that indicates both hydrogen and helium in its atmosphere, which was discovered in 1977.[8][9] Metal pollution was first discovered in 1988 in the form of small amounts of calcium.[1] Observations with Keck and Hubble, published in 2017, showed that the white dwarf is polluted with the elements carbon, nitrogen, oxygen, magnesium, silicon, sulfur, calcium, iron and nickel. The total mass of the heavy elements is around at least 10% of the mass of Pluto. The presence of nitrogen and its high abundance in WD 1425+540 hints at the presence of nitrogen ice or ammonia ice on the surface of the accreted body. The C/O ratio indicates that the body was dominated by magnesium silicates. High abundance of oxygen also shows that the body was rich in water ice, but also had carbon ices (e.g. dry ice, CO ice). The presence of water ice in the accreted body could also explain the high amount of hydrogen in the atmosphere of WD 1425+540. The excess in oxygen indicates that the exo-KBO would have been made of 30% water ice. The total abundance resembles the composition of the comet Halley.[5] A study in 2021 showed that the abundance of the accreted material is in agreement with the metal abundance of the companion star G200-40.[10]

When WD 1425+540 was a main-sequence star, it had a mass of about 2 M and therefore the exo-KBO would have been 120 astronomical units from its star, or 3 times the distance of the Kuiper Belt from the sun. When the star lost mass during the asymptotic giant branch stage, the Kuiper-Belt analogue would have expanded to beyond 300 au.[5] Simulations have shown that the pollution might have followed the eccentric Kozai–Lidov mechanism.[11]

See also

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References

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  1. ^ a b Kenyon, Scott J.; Shipman, Harry L.; Sion, Edward M.; Aannestad, Per A. (1988-05-01). "The Detection of Photospheric Calcium in a DBA White Dwarf". The Astrophysical Journal. 328: L65. Bibcode:1988ApJ...328L..65K. doi:10.1086/185161. ISSN 0004-637X.
  2. ^ Silvestri, Nicole M.; Oswalt, Terry D.; Hawley, Suzanne L. (2002-08-01). "Wide Binary Systems and the Nature of High-Velocity White Dwarfs". The Astronomical Journal. 124 (2): 1118–1126. Bibcode:2002AJ....124.1118S. doi:10.1086/341382. ISSN 0004-6256.
  3. ^ a b Brown, A. G. A.; et al. (Gaia collaboration) (2021). "Gaia Early Data Release 3: Summary of the contents and survey properties". Astronomy & Astrophysics. 649: A1. arXiv:2012.01533. Bibcode:2021A&A...649A...1G. doi:10.1051/0004-6361/202039657. S2CID 227254300. (Erratum: doi:10.1051/0004-6361/202039657e). Gaia EDR3 record for this source at VizieR.
  4. ^ Gentile Fusillo, N. P.; Tremblay, P. -E.; Cukanovaite, E.; Vorontseva, A.; Lallement, R.; Hollands, M.; Gänsicke, B. T.; Burdge, K. B.; McCleery, J.; Jordan, S. (2021-12-01). "A catalogue of white dwarfs in Gaia EDR3". Monthly Notices of the Royal Astronomical Society. 508 (3): 3877–3896. arXiv:2106.07669. Bibcode:2021MNRAS.508.3877G. doi:10.1093/mnras/stab2672. ISSN 0035-8711.
  5. ^ a b c d Xu, S.; Zuckerman, B.; Dufour, P.; Young, E. D.; Klein, B.; Jura, M. (2017-02-01). "The Chemical Composition of an Extrasolar Kuiper-Belt-Object". The Astrophysical Journal. 836 (1): L7. arXiv:1702.02868. Bibcode:2017ApJ...836L...7X. doi:10.3847/2041-8213/836/1/L7. ISSN 0004-637X.
  6. ^ information@eso.org. "Hubble finds big brother of Halley's Comet ripped apart by white dwarf". www.esahubble.org. Retrieved 2024-09-15.
  7. ^ Greenstein, Jesse L. (1974-05-01). "A New List of 52 Degenerate Stars VII". The Astrophysical Journal. 189: L131. Bibcode:1974ApJ...189L.131G. doi:10.1086/181483. ISSN 0004-637X.
  8. ^ Liebert, J.; Strittmatter, P. A. (1977-10-01). "A spectroscopic survey of white dwarf candidates from the Luyten catalogs". The Astrophysical Journal. 217: L59–L63. Bibcode:1977ApJ...217L..59L. doi:10.1086/182539. ISSN 0004-637X.
  9. ^ Liebert, J.; Gresham, M.; Hege, E. K.; Strittmatter, P. A. (1979-10-01). "The hot hybrid white dwarf G200-39". The Astronomical Journal. 84: 1612–1618. Bibcode:1979AJ.....84.1612L. doi:10.1086/112584. ISSN 0004-6256.
  10. ^ Bonsor, Amy; Jofré, Paula; Shorttle, Oliver; Rogers, Laura K.; Xu(许偲艺), Siyi; Melis, Carl (2021-05-01). "Host-star and exoplanet compositions: a pilot study using a wide binary with a polluted white dwarf". Monthly Notices of the Royal Astronomical Society. 503 (2): 1877–1883. arXiv:2102.02843. Bibcode:2021MNRAS.503.1877B. doi:10.1093/mnras/stab370. ISSN 0035-8711.
  11. ^ Stephan, Alexander P.; Naoz, Smadar; Zuckerman, B. (2017-08-01). "Throwing Icebergs at White Dwarfs". The Astrophysical Journal. 844 (2): L16. arXiv:1704.08701. Bibcode:2017ApJ...844L..16S. doi:10.3847/2041-8213/aa7cf3. ISSN 0004-637X.
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