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List of brown dwarfs

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List of astronomical objects
"List of lightest stars" redirects here; not to be confused withList of brightest stars orList of most luminous stars.
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This is a list of notablebrown dwarfs. These are objects that have masses between heavygas giants and low-massstars.[1] The first isolated brown dwarf discovered wasTeide 1 in 1995.[2] The first brown dwarf discovered orbiting a star wasGliese 229 B, also discovered in 1995.[3] The first brown dwarf found to have a planet was2M1207, discovered in 2004.[4] As of 2015[update], more than 2,800 brown dwarfs have been identified.[5] An isolated object with less than about 13Jupiter masses is technically asub-brown dwarf orrogue planet.

Because the mass of a brown dwarf is between that of aplanet and that of astar, they have also been calledplanetars orhyperjovians. Various catalog designations have been used to name brown dwarfs. Brown dwarfs with names ending in a letter such as B, C, or D are in orbit around a primary star; those with names ending in a lower-case letter such as b, c, or d, may beexoplanets (seeExoplanet naming convention).

Some exoplanets, especially those detected byradial velocity, can turn out to be brown dwarfs if their mass is higher than originally thought: most have only knownminimum masses because theinclination of theirorbit is not known. Examples includeHD 114762 b (>11.68 MJ),Pi Mensae b (>10.312 MJ), andNGC 2423-3 b (>10.6 MJ).

A complete list of more than 3000ultracool dwarfs, which includes brown dwarfs and low-mass stars, is being maintained by astronomers. It is called the UltracoolSheet.[6] The same team also produced a list of 1000 ultracool dwarfs with their mass being determined.[7]

Confirmed brown dwarfs orbiting primary stars

[edit]
This list isincomplete; you can help byadding missing items.(February 2011)

Sorted by increasingright ascension of the parent star. Brown dwarfs within a system sorted by increasingorbital period.

Some brown dwarfs listed could still be massive planets.

StarConstellationRight
ascension		DeclinationApp.
mag.		Distance(ly)Spectral
type		Brown dwarfMass
(MJ)		Radius
(RJ)		Orbital
period
(d)		Semimajor
axis
(AU)		Ecc.Discovery
year
54 PisciumPisces00h 39m 22s+21° 15′ 02″5.8836.1K0V+T7.5B45.96 ±4.05[7]0.85[7]4762006
81 CancriCancer09h 12m 14.69s14°  59 ′  39.6″6.7766G9V+L8CD8802001
HD 63754Puppis07h 49m 45s20° 12′ 27″6.55163.6G0V + L/Tb81.90.8626,79116.90.262024
CT ChamaeleontisChamaeleon11h 04m 09s–76° 27′ 19″12.36538K7+M8b172.24402008
HD 984Cetus00h 14m 10.25s−07° 11′ 56.82″7

.32

149.1F7Vb611.57651,100280.762015
Eta Coronae BorealisCorona Borealis15h 23m 22.6s30° 14′ 56″5.0258.3G2+G2+L8C44.00 ±6.46[7]0.95[7]36002010
G 196-3Ursa Major10h 04m 22s+50° 23′ 23″11.7750.2M2.5+L3βb31.66 ±7.19[7]1.18[7]3001998
Gliese 570Libra14h 57m 28s−21° 24′ 56″5.6419.0K4V+
M1V+M3V		D32.54 ±6.01[7]0.93[7]15002000
GU PisciumPisces01h 12m 35.04s+17° 03′ 55.7″13.1155.3M3V+T3.5b1120002006
HD 89744Ursa Major10h 22m 10.56s+41° 13′ 46.31″5.74126.2F7IVB2000
HD 100546Musca11h 33m 25s–70° 11′ 41″6.70337.25B9Vneb206.5?2005
HN PegasiPegasus21h 44m 28.46s+14° 46′ 7.8″58.3G0V+T2.5B17.06 ±6.9[7]1.14[7]7952006
UScoCTIO 108Scorpius16h 05m 54s–18° 18′ 43″473M7b146702007
HD 41004 BPictor05h 59m 50s–48° 14′ 23″12.33139K1IV+M2b18.41.32830.01770.0812004
CoRoT-15Monoceros06h 28m 27.81s+6° 11′ 10.5″22F7Vb63.41.123.060360.04502010
Xi Ursae Majoris BUrsa Major11h 18m 12s+31° 32′ 15″4.7325.11F8.5Vb373.980.0601931
Upsilon AndromedaeAndromeda01h 36m 48s+41° 24′ 20″4.6343.9F8VSamh13.98237.70.8220.2241999
Gliese 758Lyra19h 23m 34s+33° 13′ 19″6.3651.9G8V+T9B2396212009
Tau GeminorumGemini07h 11m 08s+30° 14′ 43″4.40302K2IIIb18.13052004
HAT-P-13Ursa Major08h 39m 32s+47° 21′ 07″10.62698G4c15.2428.51.1860.6912009
HD 16760Perseus02h 42m 21s+38° 37′ 07″8.74163G5Vb14.3465.11.130.0672009
HD 13189Triangulum02h 09m 40s+32° 18′ 59″7.57603.4K2IIb14471.61.850.282005
HD 8673Andromeda01h 26m 09s+34° 34′ 47″6.31124.75F7Vb146391.582005
Gliese 569Boötes14h 54m 29s+16° 06′ 04″10.231.5M3V+M8.5Ba + Bb116[8]870[8]0.87[8]0.317[8]1988[9]
HD 29587Perseus04h 41m 34s+42° 07′ 25″7.29146.77G2Vb401471.72.50.371996
ChaHα8Chamaeleon11h 07m 48s−77° 40′ 08″20.1522M6.5b181590.910.492007
CoRoT-20Monoceros06h 30m 55.3s+0° 13′ 37″14.664000G2Vc1716752.90.62010
HD 168443Serpens18h 20m 04s–09° 35′ 34″6.92123.5G5c341739.52.870.2282001
HD 38529 AOrion05h 46m 34s+01° 10′ 05″5.94138G4IVc372174.33.680.362002
Epsilon IndiIndus22h 03m 22s–56° 47′ 09″4.6911.8K5V+T1V+T6VBb285478.752.652003
HW VirginisVirgo12h 44m 20s−08° 40′ 17″10.9590sdB+Mb19.2357865.300.462008
DT VirginisVirgo13h 0m 41.74s12°  21 ′  14.7″9.7237.55M0V+T8.5pc10.29 ±2.46[7]1.15[7]3308111002010
HD 4113Sculptor00h 43m 12.60s−37° 58′ 57.48″7.88136G5V+T9C6073000202006
Gliese 229Lepus06h 10m 35s–21° 51′ 42″8.1419M1V+T6.5B4073050401995
TYC 9486-927-1Octans21h 26m 50.4s-81° 40′ 29.3″11.82111M1V+L3γ2MASS J2126-814013.3 ± 1.732872500069002009
Epsilon IndiIndus22h 03m 22s–56° 47′ 09″4.6911.8K5V+T1V+T6VBa471532899.82003
HD 131664Apus15h 00m 06s−73° 32′ 07″8.13180.8G3Vb18.1519513.170.6382008
HD 136118Serpens15h 18m 55s−01° 35′ 32″6.94171F9Vb4212091.450.3522002
HD 140913Corona Borealis15h 45m 07s+28° 28′ 12″8.07156.42G0Vb46147.940.540.611996
GQ Lupi bLupus15h 49m 12s–35° 39′ 03″11.4400K7eV+M9eb1–421.81032005
HD 162020Scorpius17h 50m 38s–40° 19′ 06″9.18101.95K2Vb15.08.4281980.07510.2772000
Nu OphiuchiOphiuchus17h 59m 01s−09° 46′ 25″3.33152.8K0IIIb21.95360.132004
HD 164427Telescopium18h 04m 43s−59° 12′ 35″6.89127.52G4IVb46108.550.460.552000
SCR 1845-6357Pavo18h 45m 07s−63° 57′ 43″17.412.57M8.5VB40-504.12006
COROT-3Aquila19h 28m 13s+00° 07′ 19″13.32220G0Vb21.661.014.25680.05702008
V921 Scorpii[10]Scorpius16h 59m 07.0s−42° 42′ 09.0″11.04833B0IVeb608352019
15 SagittaeSagitta20h 04m 06s+17° 04′ 13″5.8057.7G1V+L4-5B65142002
Zeta DelphiniDelphinus20h 35m 19s+14° 40′ 27″4.65220A3V+L5B559102014
HD 202206Capricornus21h 14m 58s–20° 47′ 20″8.08151.14G6Vb17.4255.870.830.4352000
Koenigstuhl1[7][11]Phoenix00h 21m 10.74s–42° 45′ 40.2″15.387.4M5.5V+L0.6VB51.88 ±3.61.182083.41998
HD 126053[7][12]Virgo14h 23m 15.28s+01° 14′ 29.6″6.356.9G1+T8pB34.29 ±18.380.9126302012
47 Ophiuchi[7][13]Ophiuchus17h 26m 37.88s−05° 05′ 11.8″4.5105.3F3+L5.5B69.66 ±0.880.9388502014
Wolf 1130Cygnus20h 05m 02.20s+54° 26′ 03.2″13.954.1sdM3+ONe+sdT8C44.90.8231502013

Confirmed brown dwarf orbiting stellar remnants

[edit]

Astellar remnant can be for example awhite dwarf, apulsar or ablack hole. Objects with a mass of a brown dwarf, but with a history of mass-transfer might not be brown dwarfs. If they exist as aperiod bouncer around a white dwarf they are thought to once have been stars and are today "brown dwarf-like objects".[14] Objects aroundblack widow pulsars on the other hand are thought to be white dwarfs that lost mass to the pulsar and therefore will differ in composition and density compared to brown dwarfs.[15] This list is sorted after the discovery year.

StarConstellationRight
ascension		DeclinationApp.
mag.		Distance(ly)Spectral
type		Brown dwarfMass
(MJ)		Radius
(RJ)		Orbital
period
(d)		Semimajor
axis
(AU)		Ecc.Discovery
year
GD 165Boötes14h 24m 39.144s9° 17′ 13.98″14.6103D4A+L4B76.12 ±1.04[7]0.91[7]1231988
WD 0137-349Sculptor01h 39m 43s−34° 42′ 39″15.33330DA+L8B530.08030.003002006
PHL 5038Aquarius22h 20m 30.70s−00° 41′ 07.5″17.3240DAZ+L8-9B73662006
SDSS J1433 (mass transfer)[16][17]Boötes14h 33m 17.79s+10° 11′ 23.49″18.9760WD+L1B58 ±80.0542008/2016
SDSS 1557Serpens15h 57m 20.77s+09° 16′ 24.6″18.6500DAZ+L4B66+5
−7		0.0950.0032011/2017
QZ Librae (mass transfer)[18]Libra15h 36m 15.98s−08° 39′ 07.52″18.8649WD+T?B25-610.0642018
BW Sculptoris (mass transfer)[14]Sculptor23h 53m 00.87s−38° 51′ 46.66″16.5305D+TB53.4 ±6.30.0540.00271997/2023

Unconfirmed brown dwarfs

[edit]
This list isincomplete; you can help byadding missing items.(February 2011)

Sorted by increasingright ascension of the parent star. Brown dwarfs within a system sorted by increasingorbital period.

Some brown dwarfs listed could still be massive planets.

StarConstellationRight
ascension		DeclinationApp.
mag.		Distance(ly)Spectral
type		Brown dwarfMass
(MJ)		Radius
(RJ)		Orbital
period
(d)		Semimajor
axis
(AU)		Ecc.Discovery year
CM DraconisDraco16h 34m 27s+57° 09′ 00″12.9048M4b64730.271998
BD+20°2457Leo10h 16m 45s+19° 53′ 29″9.75652K2IIb21.42379.631.450.152009
HD 3346Andromeda00h 36m 46s+44° 29′ 19″5.16655.58K5IIIc606502.51996
HD 104304Virgo12h 00m 44s−10° 26′ 46″5.5442.1G9b17.227520.382007
HD 154857Ara17h 11m 16s−56° 40′ 51″7.25220G5Vc18.42900>0.252007
Gliese 22 BCassiopeia00h 32m 27s+67° 14′ 09″10.38326M2.5Vb16~550002008

Field brown dwarfs

[edit]
This list isincomplete; you can help byadding missing items.(August 2019)

Data updated from[19][20][21] and merged from previous tables

Brown dwarfConstellationRight
ascension		DeclinationApp.
mag.		Distance(ly)Spectral
type		Mass
(MJ)		Radius
(RJ)		Discovery
year
2MASS 0036+1821Pisces0h 36m 16.17s18° 21′ 10.4″12.4728.6L3.5420.942000
CFBDS J005910.90–011401.3Cetus0h 59m 10.83s−1° 14′ 1.3″18.0830T8.5232013
DENIS-P J020529.0−115925ACetus2h 5m 29.401s−11° 59′ 29.67″65L5.51997
DENIS-P J020529.0−115925BCetus2h 5m 29.401s−11° 59′ 29.67″65L81997
DENIS-P J020529.0−115925CCetus2h 5m 29.401s−11° 59′ 29.67″65T01997
2MASS J02431371−2453298Fornax2h 43m 13.71s−24° 53′ 29.8″35T6330.992002
WISE J0254+0223Cetus2h 54m 9.45s2° 23′ 59.1″16.0124T8651.9n/a
DEN 0255-4700Eridanus2h 55m 3.57s−47° 0′ 50.9″22.9216.2L8800.972006
LP 944-20Fornax3h 39m 35.22s−35° 25′ 44″10.72520.9M9β731.43n/a
2MASP J0345432+2540233h 45m 43.16s25° 40′ 23.3″88L0741.051997
Teide 1Taurus3h 47m 18s+24° 22′ 31″380M8553.781995
2MASS J03552337+1133437Taurus3h 55m 23.37s11° 33′ 43.7″14.0529.8L5γ201.322006
2MASS J04151954−0935066Eridanus4h 15m 19.54s−9° 35′ 6.6″15.718.6T8300.952002
2MASS J04390101-2353083 [de]Eridanus4h 39m 1.01s−23° 53′ 8.3″29.5L6.5480.972003
2MASS J04414489+23015134h 41m 44.9s23° 1′ 58.07″470M8.5192010
2MASS J0523−1403Lepus5h 23m 38.22s−14° 3′ 2.2″40L2.5681.01n/a
2MASS 0532+8246Camelopardalis5h 32m 53.46s82° 46′ 46.5″81L7832018
UGPS J072227.51-054031.2Monoceros7h 22m 27.6s−05° 40′ 38.4″13.4T9260.982010
DENIS J081730.0-615520Carina8h 17m 30.01s−61° 55′ 15.8″13.616.1T6440.942010
DENIS J082303.1−491201AVela8h 23m 3.13s−49° 12′ 1.3″67L1.5442006
DENIS J082303.1−491201BVela8h 23m 3.13s−49° 12′ 1.3″67L5.5282006
2MASSW J0920122+351742Lynx9h 20m 12.23s35° 17′ 42.9″95L6.52000
2MASSI J0937347+293142Leo9h 37m 34.87s29° 31′ 40.9″20.0T6p420.942002
2MASS 0939−2448Antlia9h 39m 35.48s−24° 48′ 27.9″16.8317.4T8320.952005
Luhman 16BVela10h 49m 18.91s−53° 19′ 10″6.516T1431.022013
Luhman 16AVela10h 49m 18.91s−53° 19′ 10″6.516L8401.012013
DENIS-P J1058.7−1548Crater10h 58m 47.87s−15° 48′ 17.2″14.15549L3641.001997
Cha 110913-773444Chamaeleon11h 9m 14s–77° 34′ 45″21.59163L81.82005
OTS 44Chamaeleon11h 10m 12s–76° 32′ 13″554M9.5V152005
2MASS J11145133−2618235Hydra11h 14m 51.33s−26° 18′ 23.5″15.8618.2T7.5330.962005
DENIS-P J1228.2-1547Corvus12h 28m 15.23s−15° 47′ 34.2″14.3866L51999
2M 1237+6526Draco12h 37m 39.19s65° 26′ 14.8″16.0545.6T6.5410.942003
Kelu-1AHydra13h 5m 40.2s−25° 41′ 6″61L2630.981997
Kelu-1BHydra13h 5m 40.2s−25° 41′ 6″61L4580.981997
LHS 2924Boötes14h 28m 43.23s+33° 10′ 39.1″19.7438.5M9V761.06
CFBDSIR 1458+10ABoötes14h 58m 29.0s+10° 13′ 43″19.83104T911.11.52010
CFBDSIR 1458+10BBoötes14h 58m 29.0s+10° 13′ 43″21.85104Y091.32010
TVLM 513-46546Boötes15h 1m 8.18s+22° 50′ 2″15.0935.1M8.5V751.05n/a
2MASS 1503+2525Boötes15h 3m 19.61s25° 25′ 19.6″20.7T5440.942003
2MASS 1507−1627Libra15h 7m 47.69s−16° 27′ 38.6″1923.9L5600.992000
SDSSp J162414.37+002915.6Serpens16h 24m 14.36s0° 29′ 15.8″36T6430.941999
LSR J1835+3259Lyra18h 35m 37.9s32° 59′ 54.5″18.2718.5M8.5771.072003
PSO J318.5−22Capricornus21h 14m 8.02s−22° 51′ 35.8″80L7VL-G6.51.532013
2MASS J21392676+0220226Aquarius21h 39m 26.77s2° 20′ 22.7″14.7132.1T1.5460.96n/a
2MASS J22282889-4310262Grus22h 28m 28.89s−43° 10′ 26.2″15.6635T6420.942013
WISE 0146+4234Andromeda1h 46m 56.66s42° 34′ 10.0″18.7120.5Y02010
WISE 0226-0211Cetus2h 26m 24s−2° 11′ 42.51″18.9491T72010
WISE 0313+7807Cepheus3h 13m 26.02s78° 7′ 44.4″17.6528T8.52010
WISE 0316+4307Perseus3h 16m 24.35s43° 7′ 9.1″106.3T82010
WISE 0350-5658Reticulum3h 50m 0.32s−56° 58′ 30.2″22.817.7Y12010
WISE 0359-5401Reticulum3h 59m 34.06s−54° 1′ 54.6″21.5619.2Y02010
WISE 0410+1502Taurus4h 10m 22.79s15° 2′ 47.47″19.2520Y061.172010
WISE 0458+6434ACamelopardalis4h 58m 53.93s64° 34′ 52.72″17.5035.9T8.5154.22010
WISE 0458+6434BCamelopardalis4h 58m 53.93s64° 34′ 52.72″18.4835.9T9.5103.82010
WISE 0535-7500Mensa5h 35m 16.8s−75° 0′ 24.9″21.147Y12010
WISE 0607+2429Gemini6h 7m 38.65s24° 29′ 53.5″14.2225.4L82010
WISE 0647-6232Pictor6h 47m 23.23s−62° 32′ 39.7″22.6528Y12010
WISE 0713-2917Canis Major7h 13m 22.55s−29° 17′ 51.9″19.6423.2Y02010
WISE 0734-7157Volans7h 34m 44.02s−71° 57′ 44.0″20.4134.9Y02010
WISE 1217+1626AComa Berenices12h 17m 56.96s16° 26′ 39.98″18.5934.2T9122010
WISE 1217+1626BComa Berenices12h 17m 56.96s16° 26′ 39.98″20.2634.2Y062010
WISE 1405+5534Ursa Major14h 5m 18.27s55° 34′ 21.22″20.225.3Y0 pec300.862010
WISE 1506+7027Ursa Minor15h 6m 49.89s70° 27′ 36.23″14.3311.1T62010
WISE 1541-2250Libra15h 41m 51.57s−22° 50′ 25.03″21.1620Y0.52010
WISE 1639-6847Triangulum Australe16h 39m 40.83s−68° 47′ 38.6″16.3Y02010
WISE 1711+3500Hercules17h 11m 4.59s35° 0′ 36.73″17.8960.3T82010
WISE 1738+2732Hercules17h 38m 35.54s27° 32′ 58.78″19.4720Y02010
WISE 1741+2553Hercules17h 41m 24.22s25° 53′ 18.96″16.5318.9T92010
WISE 1828+2650Lyra18h 28m 31.10s26° 50′ 37.79″23.5736Y22010
WISE 1841+7000Draco18h 41m 24.75s70° 0′ 38.54″17.24131.1T52010
WISE 1952+7240Draco19h 52m 46.61s72° 40′ 0.61″15.0944.4T42010
WISE 2056+1459Delphinus20h 56m 28.88s14° 59′ 53.68″19.2124.5Y02010
WISE 2220-3628Grus22h 20m 55.31s−36° 28′ 17.4″20.3826.4Y02010
WISEA 1101+5400Ursa Major11h 01m 25.95s+54° 00′ 52.8″111T5.52017
2M1510Libra15h 10m 47.47s−28° 18′ 18.3″120M9γ+M9γ2002

Former brown dwarfs

[edit]
StarConstellationRight
ascension		DeclinationApp.
mag.		Distance(ly)Spectral
type		Brown dwarfMass
(MJ)		Radius
(RJ)		Orbital
period
(d)		Semimajor
axis
(AU)		Ecc.Discovery year
L 34-26Chamaeleon07h 49m 12.71s–76° 42′ 06.5″35.6M3Ve[22]COCONUTS-2b6.3+1.5
−1.9		4000000007506+5205
−2060		2011

See also

[edit]

References

[edit]
  1. ^Nicholos Wethington (October 6, 2008)."Dense Exoplanet Creates Classification Calamity".Universetoday.com. RetrievedJanuary 30, 2013.
  2. ^Rebolo, Rafael (2014),"Teide 1 and the Discovery of Brown Dwarfs", in Joergens, Viki (ed.),50 Years of Brown Dwarfs - From Prediction to Discovery to Forefront of Research, Astrophysics and Space Science Library, vol. 401, Springer, pp. 25–50,doi:10.1007/978-3-319-01162-2_4,ISBN 978-3-319-01162-2
  3. ^"Astronomers Announce First Clear Evidence of a Brown Dwarf".Space Telescope Science Institute news release STScI-1995-48. November 29, 1995. Retrieved24 September 2013.
  4. ^Mohanty, Subhanjoy; Jayawardhana, Ray; Huelamo, Nuria; Mamajek, Eric (2007). "The Planetary Mass Companion 2MASS 1207−3932B: Temperature, Mass, and Evidence for an Edge-on Disk".The Astrophysical Journal.657 (2):1064–1091.arXiv:astro-ph/0610550.Bibcode:2007ApJ...657.1064M.doi:10.1086/510877.S2CID 17326111.
  5. ^Wm. Robert Johnson (27 December 2015)."List of Brown Dwarfs". Johnston's Archive. Retrieved25 March 2017. (2,850 confirmed; 930 candidates)
  6. ^Best, William M. J.; Dupuy, Trent J.; Liu, Michael C.; Sanghi, Aniket; Siverd, Robert J.; Zhang, Zhoujian (2024-02-04)."The UltracoolSheet: Photometry, Astrometry, Spectroscopy, and Multiplicity for 3000+ Ultracool Dwarfs and Imaged Exoplanets".Zenodo.doi:10.5281/zenodo.10573247.
  7. ^abcdefghijklmnopqrSanghi, Aniket; Liu, Michael C.; Best, William M. J.; Dupuy, Trent J.; Siverd, Robert J.; Zhang, Zhoujian; Hurt, Spencer A.; Magnier, Eugene A.; Aller, Kimberly M.; Deacon, Niall R. (2023-11-08)."Table of Ultracool Fundamental Properties".Zenodo.doi:10.5281/zenodo.10086810.
  8. ^abcdFEMENIA B.; REBOLO R.; PEREZ-PRIETO J.A.; HILDEBRANDT S.R.; LABADIE L.; PEREZ-GARRIDO A.; BEJAR V.J.S.; DIAZ-SANCHEZ A.; VILLO I.; OSCOZ A.; LOPEZ R.; RODRIGUEZ L.F.; PIQUERAS J. (2011). "Lucky imaging adaptive optics of the brown dwarf binary GJ569Bab".Mon. Not. R. Astron. Soc.413:1524–1536.Bibcode:1988ApJ...330L.119F.doi:10.1086/185218.
  9. ^Forrest, Skrutskie and Shure (1988)."A possible brown dwarf companion to Gliese 569".Astrophysical Journal Letters.330 (3): L119–L123.arXiv:1012.4421.Bibcode:2011MNRAS.413.1524F.doi:10.1111/j.1365-2966.2011.18226.x.S2CID 55001061.
  10. ^Martin, Pierre-Yves (2022)."Planet V921 Sco b".exoplanet.eu. Retrieved2024-01-01.
  11. ^Cifuentes, Carlos; Caballero, José A.; Agustí, Sergio (2021-06-01)."One Is the Loneliest Number: Multiplicity in Cool Dwarfs".Research Notes of the American Astronomical Society.5 (5): 129.arXiv:2106.05049.Bibcode:2021RNAAS...5..129C.doi:10.3847/2515-5172/ac05ce.ISSN 2515-5172.
  12. ^Pinfield, D. J.; Burningham, B.; Lodieu, N.; Leggett, S. K.; Tinney, C. G.; van Spaandonk, L.; Marocco, F.; Smart, R.; Gomes, J.; Smith, L.; Lucas, P. W.; Day-Jones, A. C.; Murray, D. N.; Katsiyannis, A. C.; Catalan, S. (2012-05-01)."Discovery of the benchmark metal-poor T8 dwarf BD +01° 2920B".Monthly Notices of the Royal Astronomical Society.422 (3):1922–1932.arXiv:1201.3243.Bibcode:2012MNRAS.422.1922P.doi:10.1111/j.1365-2966.2012.20549.x.ISSN 0035-8711.
  13. ^Deacon, Niall R.; Liu, Michael C.; Magnier, Eugene A.; Aller, Kimberly M.; Best, William M. J.; Dupuy, Trent; Bowler, Brendan P.; Mann, Andrew W.; Redstone, Joshua A.; Burgett, William S.; Chambers, Kenneth C.; Draper, Peter W.; Flewelling, H.; Hodapp, Klaus W.; Kaiser, Nick (2014-09-01)."Wide Cool and Ultracool Companions to Nearby Stars from Pan-STARRS 1".The Astrophysical Journal.792 (2): 119.arXiv:1407.2938.Bibcode:2014ApJ...792..119D.doi:10.1088/0004-637X/792/2/119.ISSN 0004-637X.
  14. ^abNeustroev, Vitaly V.; Mäntynen, Iikka (2023-08-01)."A brown dwarf donor and an optically thin accretion disc with a complex stream impact region in the period-bouncer candidate BW Sculptoris".Monthly Notices of the Royal Astronomical Society.523 (4):6114–6137.arXiv:2212.03264.Bibcode:2023MNRAS.523.6114N.doi:10.1093/mnras/stad1730.ISSN 0035-8711.
  15. ^Swihart, Samuel J.; Strader, Jay; Chomiuk, Laura; Aydi, Elias; Sokolovsky, Kirill V.; Ray, Paul S.; Kerr, Matthew (2022-12-01)."A New Flaring Black Widow Candidate and Demographics of Black Widow Millisecond Pulsars in the Galactic Field".The Astrophysical Journal.941 (2): 199.arXiv:2210.16295.Bibcode:2022ApJ...941..199S.doi:10.3847/1538-4357/aca2ac.ISSN 0004-637X.S2CID 253224234.
  16. ^Littlefair, S. P.; Dhillon, V. S.; Marsh, T. R.; Gänsicke, B. T.; Southworth, John; Baraffe, I.; Watson, C. A.; Copperwheat, C. (2008-08-01)."On the evolutionary status of short-period cataclysmic variables".Monthly Notices of the Royal Astronomical Society.388 (4):1582–1594.arXiv:0806.1129.Bibcode:2008MNRAS.388.1582L.doi:10.1111/j.1365-2966.2008.13539.x.ISSN 0035-8711.
  17. ^Hernández Santisteban, Juan V.; Knigge, Christian; Littlefair, Stuart P.; Breton, Rene P.; Dhillon, Vikram S.; Gänsicke, Boris T.; Marsh, Thomas R.; Pretorius, Magaretha L.; Southworth, John; Hauschildt, Peter H. (2016). "An irradiated brown-dwarf companion to an accreting white dwarf".Nature.533 (7603):366–368.arXiv:1605.07132.Bibcode:2016Natur.533..366H.doi:10.1038/nature17952.PMID 27193683.S2CID 4448224.
  18. ^Pala, A. F.; Schmidtobreick, L.; Tappert, C.; Gänsicke, B. T.; Mehner, A. (2018-12-01)."The cataclysmic variable QZ Lib: a period bouncer".Monthly Notices of the Royal Astronomical Society.481 (2):2523–2535.arXiv:1809.02135.Bibcode:2018MNRAS.481.2523P.doi:10.1093/mnras/sty2434.ISSN 0035-8711.
  19. ^Filippazzo, Joseph C.; Rice, Emily L.;Faherty, Jacqueline; Cruz, Kelle L.; Van Gordon, Mollie M.; Looper, Dagny L.; Béjar, V. J. S.; Díaz-Sánchez, A.; Villó, I.; Oscoz, A.; López, R.; Rodríguez, L. F.; Piqueras, J. (2015). "Fundamental Parameters and Spectral Energy Distributions of Young and Field Age Objects with Masses Spanning the Stellar to Planetary Regime".The Astrophysical Journal.810 (2): 158.arXiv:1508.01767.Bibcode:2015ApJ...810..158F.doi:10.1088/0004-637X/810/2/158.S2CID 89611607.
  20. ^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.
  21. ^Mohanty, Subhanjoy; Jayawardhana, Ray; Huelamo, Nuria; Mamajek, Eric; Cushing, Michael C.; Mace, Gregory; Mendez, Rene A.; Tinney, C. G.; Jones, Hugh R. A. (2014). "WISEP J061135.13-041024.0AB: A J-Band Flux Reversal Binary at the L/T Transition".arXiv:1405.0511 [astro-ph.SR].
  22. ^"L 34-26".sim-basic. Retrieved2021-07-16.[permanent dead link]

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