WISE 1828+2650: Difference between revisions
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{{cite journal |doi=10.1088/0067-0049/197/2/19 |display-authors=6 |authorlink=J. Davy Kirkpatrick |last1=Kirkpatrick |first1=J. Davy |last2=Cushing |first2=Michael C. |last3=Gelino |first3=Christopher R. |last4=Griffith |first4=Roger L. |last5=Skrutskie |first5=Michael F. |last6=Marsh |first6=Kenneth A. |last7=Wright |first7=Edward L. |last8=Mainzer |first8=Amy K. |last9=Eisenhardt |first9=Peter R. |last10=McLean |first10=Ian S. |last11=Thompson |first11=Maggie A. |last12=Bauer |first12=James M. |
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|appmag_2=22.45 ± 0.08{{r|Beichman2013}}}} |
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|prop_mo_ra={{nowrap|1024 ± 7{{r|Beichman2014}}}} |
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|prop_mo_dec={{nowrap|174 ± 6{{r|Beichman2014}}}} |
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== Distance == |
== Distance == |
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Currently the most accurate distance estimate of WISE 1828+2650 is a [[trigonometric parallax]], |
Currently the most accurate distance estimate of WISE 1828+2650 is a [[trigonometric parallax]], published in 2014 by Beichman ''et al.'': 0.106 ± 0.007 [[arcsecond|arcsec]], corresponding to a distance 9.4{{±|0.7|0.6}} pc, or 30.8{{±|2.2|1.9}} ly.{{r|Beichman2014}} |
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| align=left style="padding: 20px 2px;" |Beichman et al. (2013) || 90 ± 9.5<ref name="note 3" group="~">According to Dupuy & Kraus (2013), this measurement uncertainty is likely underestimated.</ref> || 11.2{{±|1.3|1.0}} || 36.5{{±|4.2|3.3}} || {{r|Beichman2013}} |
| align=left style="padding: 20px 2px;" |Beichman et al. (2013) || 90 ± 9.5<ref name="note 3" group="~">According to Dupuy & Kraus (2013), this measurement uncertainty is likely underestimated.</ref> || 11.2{{±|1.3|1.0}} || 36.5{{±|4.2|3.3}} || {{r|Beichman2013}} |
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| align=left style="padding: 15px 3px;" |Dupuy & Kraus (2013) || |
| align=left style="padding: 15px 3px;" |Dupuy & Kraus (2013) || 70 ± 14<ref name="note 4" group="~">Relative parallax.</ref> || 14.3{{±|3.6|2.4}} || 46.6{{±|11.6|7.8}} || {{r|Dupuy2013}} |
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| align=left style="padding: 15px 3px;" | Beichman et al. (2014) || '''106 ± 7''' || '''9.4{{±|0.7|0.6}}''' || '''30.8{{±|2.2|1.9}}''' || {{r|Beichman2014}} |
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| colspan=5 style="font-size: 0.85em; background-color: #f2f2f2; padding: 6px 0 4px 4px; text-align: left;" | Non-trigonometric distance estimates are marked in ''italic''. The most precise estimate is marked in '''bold'''. |
| colspan=5 style="font-size: 0.85em; background-color: #f2f2f2; padding: 6px 0 4px 4px; text-align: left;" | Non-trigonometric distance estimates are marked in ''italic''. The most precise estimate is marked in '''bold'''. |
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== Proper motion == |
== Proper motion == |
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WISE 1828+2650 has proper motion of about |
WISE 1828+2650 has proper motion of about 1039 milliarcseconds per year.{{r|Beichman2014}} |
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| align=left | Kirkpatrick et al. (2011) || 1084 || 84 || 1078 ± 327 || 118 ± 409 || {{r|Kirkpatrick2011}} |
| align=left | Kirkpatrick et al. (2011) || 1084 || 84 || 1078 ± 327 || 118 ± 409 || {{r|Kirkpatrick2011}} |
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| align=left | Beichman et al. (2013) || |
| align=left | Beichman et al. (2013) || 966 || 81 || 954 ± 11 || 153 ± 12.5 || {{r|Beichman2013}} |
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| align=left | Dupuy & Kraus (2013) || 1034 ± 15 || 80.4 ± 0.9 || 1020 ± 15 || 173 ± 16 || {{r|Dupuy2013}} |
| align=left | Dupuy & Kraus (2013) || 1034 ± 15 || 80.4 ± 0.9 || 1020 ± 15 || 173 ± 16 || {{r|Dupuy2013}} |
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| align=left | Beichman et al. (2014) || '''1039''' || '''80.4''' || '''1024 ± 7''' || '''174 ± 6''' || {{r|Beichman2014}} |
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| colspan=6 style="font-size: 0.85em; background-color: #f2f2f2; padding: 6px 0 4px 4px; text-align: left;" |The best estimate is marked in '''bold'''. |
| colspan=6 style="font-size: 0.85em; background-color: #f2f2f2; padding: 6px 0 4px 4px; text-align: left;" |The best estimate is marked in '''bold'''. |
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|arxiv = 1309.1422 |bibcode = 2013Sci...341.1492D | pmid=24009359| s2cid = 30379513 |
|arxiv = 1309.1422 |bibcode = 2013Sci...341.1492D | pmid=24009359| s2cid = 30379513 |
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}}</ref> |
}}</ref> |
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<ref name="Beichman2014">{{cite journal|first1=C. |last1=Beichman|first2=Christopher R. |last2=Gelino|first3=J. Davy |last3=Kirkpatrick|first4=Michael C. |last4=Cushing|first5=Sally |last5=Dodson-Robinson|first6=Mark S. |last6=Marley|first7=Caroline V. |last7=Morley|first8=E. L. |last8=Wright|year=2014|title=WISE Y Dwarfs As Probes of the Brown Dwarf-Exoplanet Connection|journal=[[The Astrophysical Journal]]|volume=783 |issue=2 |page=68|arxiv=1401.1194v2|bibcode=2014ApJ...783...68B|doi=10.1088/0004-637X/783/2/68}}</ref> |
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Revision as of 04:03, 31 October 2021
| Observation data Epoch MJD 55467.61[1] Equinox J2000[1] | |
|---|---|
| Constellation | Lyra |
| Right ascension | 18h 28m 31.10s[1] |
| Declination | 26° 50′ 37.79″[1] |
| Characteristics | |
| Spectral type | >Y2[2] |
| Apparent magnitude (J (MKO filter system)) | 23.57 ± 0.35[1] |
| Apparent magnitude (H (MKO filter system)) | 22.45 ± 0.08[2] |
| Astrometry | |
| Proper motion (μ) | RA: 1024 ± 7[3] mas/yr Dec.: 174 ± 6[3] mas/yr |
| Parallax (π) | 106 ± 7 mas[3] |
| Distance | 31 ± 2 ly (9.4 ± 0.6 pc) |
| Details | |
| Mass | 3–6 or 0.5–20[2] MJup |
| Temperature | 250–400[2] K |
| Age | 2–4 or 0.1–10[2] Gyr |
| Other designations | |
| Database references | |
| SIMBAD | data |
WISE 1828+2650 (full designation WISEPA J182831.08+265037.8) is a brown dwarf or rogue planet[2] of spectral class >Y2,[2] located in constellation Lyra at approximately 47 light-years from Earth.[5] It is the "archetypal member" of the Y spectral class.[4]
History of observations
Discovery
WISE 1828+2650 was discovered in 2011 from data collected by NASA's 40 cm (16 in) Wide-field Infrared Survey Explorer (WISE) space telescope at infrared wavelength. WISE 1828+2650 has two discovery papers: Kirkpatrick et al. (2011) and Cushing et al. (2011), however, basically with the same authors and published nearly simultaneously.[1][4]
- Kirkpatrick et al. presented discovery of 98 new found by WISE brown dwarf systems with components of spectral types M, L, T and Y, among which also was WISE 1828+2650 – coolest of them.[1][~ 1]
- Cushing et al. presented discovery of seven brown dwarfs – one of T9.5 type, and six of Y-type – first members of the Y spectral class, ever discovered and spectroscopically confirmed, including "archetypal member" of the Y spectral class – WISE 1828+2650.[4] These seven objects are also the faintest seven of 98 brown dwarfs, presented in Kirkpatrick et al. (2011).[1]
Distance
Currently the most accurate distance estimate of WISE 1828+2650 is a trigonometric parallax, published in 2014 by Beichman et al.: 0.106 ± 0.007 arcsec, corresponding to a distance 9.4+0.7
−0.6 pc, or 30.8+2.2
−1.9 ly.[3]
| Source | Parallax (mas) |
Distance (pc) |
Distance (ly) |
Ref |
|---|---|---|---|---|
| Kirkpatrick et al. (2011) (Table 6) |
– | <9.4 | <30.7 | [1] |
| Beichman et al. (2013) (according to Kirkpatrick et al. (2012)) |
122 ± 13 | 8.2+1.0 −0.8 |
26.7+3.2 −2.6 |
[6] |
| Beichman et al. (2013) | 90 ± 9.5[~ 2] | 11.2+1.3 −1.0 |
36.5+4.2 −3.3 |
[2] |
| Dupuy & Kraus (2013) | 70 ± 14[~ 3] | 14.3+3.6 −2.4 |
46.6+11.6 −7.8 |
[5] |
| Beichman et al. (2014) | 106 ± 7 | 9.4+0.7 −0.6 |
30.8+2.2 −1.9 |
[3] |
| Non-trigonometric distance estimates are marked in italic. The most precise estimate is marked in bold. | ||||
Proper motion
WISE 1828+2650 has proper motion of about 1039 milliarcseconds per year.[3]
| Source | μ mas/yr |
P. A. ° |
μRA mas/yr |
μDEC mas/yr |
Ref |
|---|---|---|---|---|---|
| Kirkpatrick et al. (2011) | 1084 | 84 | 1078 ± 327 | 118 ± 409 | [1] |
| Beichman et al. (2013) | 966 | 81 | 954 ± 11 | 153 ± 12.5 | [2] |
| Dupuy & Kraus (2013) | 1034 ± 15 | 80.4 ± 0.9 | 1020 ± 15 | 173 ± 16 | [5] |
| Beichman et al. (2014) | 1039 | 80.4 | 1024 ± 7 | 174 ± 6 | [3] |
| The best estimate is marked in bold. | |||||
Physical properties
Until the discovery of WISE 0855−0714 in 2014 WISE 1828+2650 was considered as the coldest currently known brown dwarf or the first example of free-floating planet (it is not currently known if it is a brown dwarf or a free-floating planet).[2] It has a temperature in the range 250–400 K (−23–127 °C; −10–260 °F)[2] and was initially estimated below 300 K,[4] or about 27 °C (81 °F). It has been assigned the latest known spectral class (>Y2,[2] initially estimated as >Y0[4]).
The mass of WISE 1828+2650 is in the range 0.5–20 MJup for ages of 0.1–10 Gyr.[2]
High tangential velocity of WISE 1828+2650, characteristic of an old disk population, indicates possible age of WISE 1828+2650 in the range 2–4 Gyr, leading to mass estimate of about 3–6 MJup.[2][~ 4]
WISE 1828+2650 is similar in appearance to the other Y-type object WD 0806-661 B. WD 0806-661 B could have formed as a planet close to its primary, WD 0806-661 A, and later, when the primary became a white dwarf and lost most of its mass, have migrated into a larger orbit of 2500 AU, and similarity between WD 0806-661 B and WISE 1828+2650 may indicate that WISE 1828+2650 had formed in the same way.[2]
Possible binarity
Comparison between WISE 1828+2650 and WD 0806-661 B may suggest that WISE 1828+2650 is a system of two equal-mass objects. Observations with Hubble Space Telescope (HST) and Keck-II LGS-AO system had not revealed binarity, suggesting that if any such companion exists, it would have an orbit less than 0.5 AU, and no evidence for binarity yet exists.[2]
Comparison
See also
The other six discoveries of brown dwarfs, published by Cushing et al. in 2011:[4]
- WISE 0148−7202 (T9.5)
- WISE 0410+1502 (Y0)
- WISE 1405+5534 (Y0 (pec?))
- WISE 1541−2250 (Y0.5)
- WISE 1738+2732 (Y0)
- WISE 2056+1459 (Y0)
Notes
- ^ These 98 brown dwarf systems are only among first, not all brown dwarf systems, discovered from data, collected by WISE: six discoveries were published earlier (however, also listed in Kirkpatrick et al. (2011)) in Mainzer et al. (2011) and Burgasser et al. (2011), and the other discoveries were published later.
- ^ According to Dupuy & Kraus (2013), this measurement uncertainty is likely underestimated.
- ^ Relative parallax.
- ^ This may indicate that WISE 1828+2650 is more likely a free-floating planet, not a brown dwarf, since it is below the lower mass limit for brown dwarfs (~13 MJup, see brown dwarf).
References
- ^ a b c d e f g h i j k l m Kirkpatrick, J. Davy; Cushing, Michael C.; Gelino, Christopher R.; Griffith, Roger L.; Skrutskie, Michael F.; Marsh, Kenneth A.; Wright, Edward L.; Mainzer, Amy K.; Eisenhardt, Peter R.; McLean, Ian S.; Thompson, Maggie A.; Bauer, James M.; Benford, Dominic J.; Bridge, Carrie R.; Lake, Sean E.; Petty, Sara M.; Stanford, Spencer Adam; Tsai, Chao-Wei; Bailey, Vanessa; Beichman, Charles A.; Bloom, Joshua S.; Bochanski, John J.; Burgasser, Adam J.; Capak, Peter L.; Cruz, Kelle L.; Hinz, Philip M.; Kartaltepe, Jeyhan S.; Knox, Russell P.; Manohar, Swarnima; Masters, Daniel; Morales-Calderon, Maria; Prato, Lisa A.; Rodigas, Timothy J.; Salvato, Mara; Schurr, Steven D.; Scoville, Nicholas Z.; Simcoe, Robert A.; Stapelfeldt, Karl R.; Stern, Daniel; Stock, Nathan D.; Vacca, William D. (2011). "The First Hundred Brown Dwarfs Discovered by the Wide-field Infrared Survey Explorer (WISE)". The Astrophysical Journal Supplement. 197 (2): 19. arXiv:1108.4677v1. Bibcode:2011ApJS..197...19K. doi:10.1088/0067-0049/197/2/19.
- ^ a b c d e f g h i j k l m n o p q Beichman, C.; Gelino, Christopher R.; Kirkpatrick, J. Davy; Barman, Travis S.; Marsh, Kenneth A.; Cushing, Michael C.; Wright, E. L. (2013). "The Coldest Brown Dwarf (or Free-floating Planet)?: The Y Dwarf WISE 1828+2650". The Astrophysical Journal. 764 (1): 101. arXiv:1301.1669. Bibcode:2013ApJ...764..101B. doi:10.1088/0004-637X/764/1/101. S2CID 118575478.
- ^ a b c d e f g Beichman, C.; Gelino, Christopher R.; Kirkpatrick, J. Davy; Cushing, Michael C.; Dodson-Robinson, Sally; Marley, Mark S.; Morley, Caroline V.; Wright, E. L. (2014). "WISE Y Dwarfs As Probes of the Brown Dwarf-Exoplanet Connection". The Astrophysical Journal. 783 (2): 68. arXiv:1401.1194v2. Bibcode:2014ApJ...783...68B. doi:10.1088/0004-637X/783/2/68.
- ^ a b c d e f g Cushing, Michael C.; Kirkpatrick, J. Davy; Gelino, Christopher R.; Griffith, Roger L.; Skrutskie, Michael F.; Mainzer, A.; Marsh, Kenneth A.; Beichman, Charles A.; Burgasser, Adam J.; Prato, Lisa A.; Simcoe, Robert A.; Marley, Mark S.; Saumon, D.; Freedman, Richard S.; Eisenhardt, Peter R.; Wright, Edward L. (2011). "The Discovery of Y Dwarfs using Data from the Wide-field Infrared Survey Explorer (WISE)". The Astrophysical Journal. 743 (1): 50. arXiv:1108.4678. Bibcode:2011ApJ...743...50C. doi:10.1088/0004-637X/743/1/50. S2CID 286881.
- ^ a b c Dupuy, T. J.; Kraus, A. L. (2013). "Distances, Luminosities, and Temperatures of the Coldest Known Substellar Objects". Science. 341 (6153): 1492–5. arXiv:1309.1422. Bibcode:2013Sci...341.1492D. doi:10.1126/science.1241917. PMID 24009359. S2CID 30379513.
- ^ Kirkpatrick, J. Davy; Gelino, Christopher R.; Cushing, Michael C.; Mace, Gregory N.; Griffith, Roger L.; Skrutskie, Michael F.; Marsh, Kenneth A.; Wright, Edward L.; Eisenhardt, Peter R.; McLean, Ian S.; Mainzer, Amy K.; Burgasser, Adam J.; Tinney, Chris G.; Parker, Stephen; Salter, Graeme (2012). "Further Defining Spectral Type "Y" and Exploring the Low-mass End of the Field Brown Dwarf Mass Function". The Astrophysical Journal. 753 (2): 156. arXiv:1205.2122. Bibcode:2012ApJ...753..156K. doi:10.1088/0004-637X/753/2/156. S2CID 119279752.
External links
- Choi, Charles Q. (August 26, 2011). "Y dwarf star? Because they're cool, that's Y!". Space.com. Retrieved August 31, 2011.
- NASA news release
- Science news
- NASA Astronomy Picture of the Day: Infrared image of WISE 1828+2650 (30 August 2011)
- Solstation.com (New Objects within 20 light-years)