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List of nearest stars

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Rotating 3D image of the nearest stars
Animated 3D map of the nearest stars, centered on the Sun. 3D red green glasses are recommended to view this image correctly.
A radar map of the distances (▬) and positions (◆) of all known stellar bodies or systems within 9 light years (ly) (for within 12 ly see this map). Their distances are entered outward from the Sun (Sol) between concentric circles, each representing one ly, and arranged clockwise in hours of right ascension. The position marks are entered inward from the distance marks according to their declinations, connected by lines (doted when positive) representing the arcs of the declinations viewed edge-on.

This list covers all known stars, white dwarfs, brown dwarfs, and sub-brown dwarfs within 20 light-years (6.13 parsecs) of the Sun. So far, 131 such objects have been found. Only 22 are bright enough to be visible without a telescope, for which the star's visible light needs to reach or exceed the dimmest brightness visible to the naked eye from Earth, 6.5 apparent magnitude.[1]

The known 131 objects are bound in 94 stellar systems. Of those, 103 are main sequence stars: 80 red dwarfs and 23 "typical" stars having greater mass. Additionally, astronomers have found 6 white dwarfs (stars that have exhausted all fusible hydrogen), 21 brown dwarfs, as well as 1 sub-brown dwarf, WISE 0855−0714 (possibly a rogue planet). The closest system is Alpha Centauri, with Proxima Centauri as the closest star in that system, at 4.2465 light-years from Earth. The brightest, most massive and most luminous object among those 131 is Sirius A, which is also the brightest star in Earth's night sky; its white dwarf companion Sirius B is the hottest object among them. The largest object within the 20 light-years is Procyon.

The Solar System, and the other stars/dwarfs listed here, are currently moving within (or near) the Local Interstellar Cloud, roughly 30 light-years (9.2 pc) across. The Local Interstellar Cloud is, in turn, contained inside the Local Bubble, a cavity in the interstellar medium about 300 light-years (92.0 pc) across. It contains Ursa Major and the Hyades star cluster, among others. The Local Bubble also contains the neighboring G-Cloud, which contains the stars Alpha Centauri and Altair. In the galactic context, the Local Bubble is a small part of the Orion Arm, which contains most stars that we can see without a telescope. The Orion Arm is one of the spiral arms of our Milky Way galaxy.

Astrometrics

[edit]

The easiest way to determine stellar distance to the Sun for objects at these distances is parallax, which measures how much stars appear to move against background objects over the course of Earth's orbit around the Sun. As a parsec (parallax-second) is defined by the distance of an object that would appear to move exactly one second of arc against background objects, stars less than 5 parsecs away will have measured parallaxes of over 0.2 arcseconds, or 200 milliarcseconds. Determining past and future positions relies on accurate astrometric measurements of their parallax and total proper motions (how far they move across the sky due to their actual velocity relative to the Sun), along with spectroscopically determined radial velocities (their speed directly towards or away from us, which combined with proper motion defines their true movement through the sky relative to the Sun). Both of these measurements are subject to increasing and significant errors over very long time spans, especially over the several thousand-year time spans it takes for stars to noticeably move relative to each other.[2]

Based on results from the Gaia telescope's second data release from April 2018, an estimated 694 stars will approach the Solar System to less than 5 parsecs in the next 15 million years. Of these, 26 have a good probability to come within 1.0 parsec (3.3 light-years) and another 7 within 0.5 parsecs (1.6 light-years).[3] This number is likely much higher, due to the sheer number of stars needed to be surveyed; a star approaching the Solar System 10 million years ago, moving at a typical Sun-relative 20–200 kilometers per second, would be 600–6,000 light-years from the Sun at present day, with millions of stars closer to the Sun. The closest encounter to the Sun so far predicted is the low-mass orange dwarf star Gliese 710 / HIP 89825 with roughly 60% the mass of the Sun.[4] It is currently predicted to pass 0.1696±0.0065 ly (10635±500 au) from the Sun in 1.290±0.04 million years from the present, close enough to significantly disturb the Solar System's Oort cloud.[5]

Stars within 11 ly.
Stars and star systems within 12.5 ly.

List

[edit]
Key
# Visible to the unaided eye (apparent magnitude of +6.5 or brighter)
$ Luminous star (absolute magnitude of +8.5 or brighter)
White dwarf
§ Brown dwarf
& Sub-brown dwarf or rogue planet
* Nearest in constellation

The classes of the stars and brown dwarfs are shown in the color of their spectral types (these colors are derived from conventional names for the spectral types and do not necessarily represent the star's observed color). Many brown dwarfs are not listed by visual magnitude but are listed by near-infrared J band apparent magnitude due to how dim (and often invisible) they are in visible color bands (U, B or V). Absolute magnitude (with electromagnetic wave, 'light' band denoted in subscript) is a measurement at a 10-parsec distance across imaginary empty space devoid of all its sparse dust and gas. Some of the parallaxes and resultant distances are rough measurements.[6]

Known star systems within 20 light-years (6.13 parsecs)
Designation Distance
(ly (±err))[7]
Coordinates:
RADec
(Ep J2000, Eq J2000)[6]
Stellar
class
Mass Magnitude (mV[6] or mJ) Parallax
(mas
(±err))

[6][note 1]
Notes and additional
references
System Star or (sub-) brown dwarf M App. Abs.
Solar System Sun (Sol)$ 0.0000158 N/A N/A G2V[6] 1 −26.74# 4.85 N/A eight recognized planets and more dwarf planets
Alpha Centauri Proxima Centauri (C, V645 Centauri) 4.2465
±0.0003
Cen* 14h 29m 43.0s
−62° 40′ 46″
M5.5Ve 0.122 11.09 15.53 768.0665
±0.0499[8]
flare star, one confirmed planet (b, 2016, and two candidate planets, (d, 2022)[9][10] and (c, 2019)[11][12]
Rigil Kentaurus (A)$ 4.3441
±0.0022
14h 39m 36.5s
−60° 50′ 02″
G2V[6] 1.079 0.01# 4.38 750.81
±0.38[13]
one directly imaged habitable-zone planet candidate (Candidate 1) (2021)
Toliman (B)$ 14h 39m 35.1s
−60° 50′ 14″
K1V[6] 0.909 1.34# 5.71 planet b refuted in 2015
Barnard's Star (BD+04°3561a) 5.9629
±0.0004
Oph* 17h 57m 48.5s
+04° 41′ 36″
M4.0Ve 0.144 9.53 13.22 546.9759
±0.0401[8]
flare star, largest-known proper motion,[14] one confirmed planet (b)[15]
Luhman 16
(WISE 1049−5319)
6.5029
±0.0011
Vel* 10h 49m 18.9s
−53° 19′ 10″
L8±1[16] 0.032 10.7 J 14.2 J 501.557
±0.082[17]
nearest brown dwarfs
T1±2[16] 0.027
WISE 0855−0714& 7.430
±0.041
Hya* 08h 55m 10.8s
−07° 14′ 43″
Y4 0.003-0.010 25.0 J 28.2 J 439.0
±2.4[18]
sub-brown dwarf
Wolf 359 (CN Leonis) 7.8558
±0.0013
Leo* 10h 56m 29.2s
+07° 00′ 53″
M6.0V[6] 0.090 13.44 16.55 415.1794
±0.0684[8]
flare star, has 1 candidate & 1 refuted planet[19][20]
Lalande 21185 (BD+36°2147, Gliese 411, HD 95735) 8.3044
±0.0007
UMa* 11h 03m 20.2s
+35° 58′ 12″
M2.0V[6] 0.390 7.47 10.44 392.7529
±0.0321[8]
two known planets (2019, 2021)[21]
Alpha Canis Majoris Sirius (A)$ 8.7094
±0.0054
CMa* 06h 45m 08.9s
−16° 42′ 58″
A1V[6] 2.063 −1.46# 1.42 374.4896
±0.2313[8]
brightest star in the night sky
B‡ DA2[6] 1.018 8.44 11.34
Gliese 65 (Luyten 726–8) A (BL Ceti) 8.724
±0.012
Cet* 01h 39m 01.3s
−17° 57′ 01″
M5.5Ve 0.102 12.54 15.40 373.8443
±0.5009[8]
flare star (Archetypal member), has 1 candidate planet[22]
B (UV Ceti) M6.0Ve 0.100 12.99 15.85
Ross 154 (V1216 Sagittarii) 9.7063
±0.0009
Sgr* 18h 49m 49.4s
−23° 50′ 10″
M3.5Ve 0.17 10.43 13.07 336.0266
±0.0317[8]
flare star
Ross 248 (HH Andromedae) 10.3057
±0.0014
And* 23h 41m 54.7s
+44° 10′ 30″
M5.5Ve 0.136 12.29 14.79 316.4812
±0.0444[8]
flare star
Epsilon Eridani (Ran)$ 10.4749
±0.0037
Eri* 03h 32m 55.8s
−09° 27′ 30″
K2V[6] 0.820 3.73# 6.19 311.37
±0.11[23]
three circumstellar disks,
one confirmed planet (AEgir, 2000) and one candidate (c, 2002)[24]
Lacaille 9352 (Gliese 887) 10.7241
±0.0007
PsA* 23h 05m 52.0s
−35° 51′ 11″
M0.5V 0.486 7.34 9.75 304.1354
±0.0200[8]
two planets, b and c, with equivocal evidence for a third in the habitable zone (2020)[25]
Ross 128 (FI Virginis) 11.0074
±0.0011
Vir* 11h 47m 44.4s
+00° 48′ 16″
M4.0Vn 0.168 11.13 13.51 296.3053
±0.0302[8]
flare star, one planet (b) (2017)[26]
EZ Aquarii
(Gliese 866, Luyten 789-6)
A 11.109
±0.034
Aqr* 22h 38m 33.4s
−15° 17′ 57″
M5.0Ve 0.11 13.33 15.64 293.60
±0.9[27]
A & B flare stars
B M? 0.11 13.27 15.58
C M? 0.10 14.03 16.34
Alpha Canis Minoris Procyon (A)$ 11.402
±0.032
CMi* 07h 39m 18.1s
+05° 13′ 30″
F5IV–V[6] 1.499 0.38# 2.66 286.05
±0.81
[28][29]
B‡ DQZ[6] 0.602 10.70 12.98
61 Cygni A (BD+38°4343)$ 11.4039
±0.0012
Cyg* 21h 06m 53.9s
+38° 44′ 58″
K5.0V[6] 0.70 5.21# 7.49 286.0054
±0.0289[8]
First star (besides Sun) to have measured distance.[30]
B flare star, with possible planet or brown dwarf.[31]
Possible circumstellar disk.
B (BD+38°4344)$ 21h 06m 55.3s
+38° 44′ 31″
K7.0V[6] 0.63 6.03# 8.31
Struve 2398
(Gliese 725, BD+59°1915)
A (HD 173739) 11.4908
±0.0009
Dra* 18h 42m 46.7s
+59° 37′ 49″
M3.0V[6] 0.334 8.90 11.16 283.8401
±0.0220[8]
flare stars, star B has 2 candidate planets[19]
B (HD 173740) 18h 42m 46.9s
+59° 37′ 37″
M3.5V[6] 0.248 9.69 11.95
Groombridge 34
(Gliese 15)
A (GX Andromedae) 11.6191
±0.0008
And 00h 18m 22.9s
+44° 01′ 23″
M1.5V[6] 0.38 8.08 10.32 280.7068
±0.0203[8]
flare star, two known planets (Ab, 2014, and Ac, 2018)[32]
B (GQ Andromedae) M3.5V[6] 0.15 11.06 13.30 flare star
DX Cancri (G 51-15) 11.6797
±0.0027
Cnc* 08h 29m 49.5s
+26° 46′ 37″
M6.5Ve 0.09 14.78 16.98 279.2496
±0.0637[8]
flare star
Epsilon Indi
(CPD−57°10015)
A$ 11.8670
±0.0041
Ind* 22h 03m 21.7s
−56° 47′ 10″
K5Ve[6] 0.754 4.69# 6.89 274.8431
±0.0956[8]
one planet (Ab) (2018)[33]
Ba§ 22h 04m 10.5s
−56° 46′ 58″
T1.0V 0.065 12.3 J[34] 14.5 J
Bb§ T6.0V 0.050 13.2 J[34] 15.4 J
Tau Ceti (BD−16°295)$ 11.9118
±0.0074
Cet 01h 44m 04.1s
−15° 56′ 15″
G8.5Vp[6] 0.783 3.49# 5.68 273.8097
±0.1701[8]
one debris disk
four confirmed planets (e, f, g, and h) (2012, 2017),
four candidate planets (b, c, d, and "i") (2012, 2019)
GJ 1061 (LHS 1565) 11.9839
±0.0014
Hor* 03h 35m 59.7s
−44° 30′ 45″
M5.5V[6] 0.113 13.09 15.26 272.1615
±0.0316[8]
has 3 known planets (2019)[35][36][37]
YZ Ceti (LHS 138) 12.1222
±0.0015
Cet 01h 12m 30.6s
−16° 59′ 56″
M4.5V[6] 0.130 12.02 14.17 269.0573
±0.0337[8]
flare star, three planets (b, c, and d) (2017)[38]
Luyten's Star (BD+05°1668) 12.3485
±0.0019
CMi 07h 27m 24.5s
+05° 13′ 33″
M3.5Vn 0.26 9.86 11.97 264.1269
±0.0413[8]
two planets (b, c) (2017)[39] and two suspected planets (d, e) (2019)[40]
Teegarden's Star (SO025300.5+165258) 12.4970
±0.0045
Ari* 02h 53m 00.9s
+16° 52′ 53″
M6.5V 0.08 15.14 17.22 260.9884
±0.0934[8]
has 3 known planets (2019, 2024)[41][42]
Kapteyn's Star (CD−45°1841) 12.8308
±0.0008
Pic* 05h 11m 40.6s
−45° 01′ 06″
M1.5VI[6] 0.281 8.84 10.87 254.1986
±0.0168[8]
two refuted planets (b and c) (2014)[43][44]
Lacaille 8760 (AX Microscopii) 12.9472
±0.0018
Mic* 21h 17m 15.3s
−38° 52′ 03″
M0.0V[6] 0.60 6.67 8.69 251.9124
±0.0352[8]
brightest M dwarf star in night sky, flare star
SCR 1845−6357 A 13.0638
±0.0070
Pav* 18h 45m 05.3s
−63° 57′ 48″
M8.5V[6] 0.07 17.39 19.41 249.6651
±0.1330[8]
[37]
18h 45m 02.6s
−63° 57′ 52″
T6[45] 0.03[6] 13.3 J[34] 15.3 J
Kruger 60
(BD+56°2783)
A 13.0724
±0.0052
Cep* 22h 27m 59.5s
+57° 41′ 45″
M3.0V[6] 0.271 9.79 11.76 249.5
±0.1[46]
B flare star
B (DO Cephei) M4.0V[6] 0.176 11.41 13.38
DENIS J1048−3956 13.1932
±0.0027
Ant* 10h 48m 14.7s
−39° 56′ 06″
M8.5V[6] 0.08 17.39 19.37 247.2156
±0.0512[8]
[47][48]
Ross 614
(V577 Monocerotis, Gliese 234)
A (LHS 1849) 13.363
±0.040
Mon* 06h 29m 23.4s
−02° 48′ 50″
M4.5V[6] 0.223 11.15 13.09 244.07
±0.73[49]
A flare star
B (LHS 1850) M5.5V 0.111 14.23 16.17
UGPS J0722-0540§ 13.43
±0.13
Mon 07h 22m 27.3s
–05° 40′ 30″
T9[6] 0.010-0.025 16.52 J[50] 18.45 J 242.8
±2.4[51]
[52]
Wolf 1061 (Gliese 628, BD−12°4523) 14.0500
±0.0016
Oph 16h 30m 18.1s
−12° 39′ 45″
M3.0V[6] 0.294 10.07 11.93 232.1390
±0.0268[8]
three planets (b, c, and d) (2015)[53]
Van Maanen's Star (Gliese 35, LHS 7)‡ 14.0718
±0.0011
Psc* 00h 49m 09.9s
+05° 23′ 19″
DZ7[6] 0.67 12.38 14.21 231.7800
±0.0183[8]
closest-known free-floating white dwarf,
third-known white dwarf
possible debris disk (1917)
Gliese 1 (CD−37°15492) 14.1747
±0.0022
Scl* 00h 05m 24.4s
−37° 21′ 27″
M1.5 V[6] 0.45-0.48 8.55 10.35 230.0970
±0.0362[8]
TZ Arietis (Gliese 83.1, L 1159–16) 14.5780
±0.0046
Ari 02h 00m 13.2s
+13° 03′ 08″
M4.5V[6] 0.14 12.27 14.03 223.7321
±0.0699[8]
flare star, has one confirmed planet (b)[54]
Wolf 424
(FL Virginis, LHS 333, Gliese 473)
A 14.595
±0.031
Vir 12h 33m 17.2s
+09° 01′ 15″
M5.5Ve 0.143 13.18 14.97 223.4775
±0.4665[8]
flare stars
B M7Ve 0.131 13.17 14.96
Gliese 687 (LHS 450, BD+68°946) 14.8395
±0.0014
Dra 17h 36m 25.9s
+68° 20′ 21″
M3.0V[6] 0.401 9.17 10.89 219.7898
±0.0210[8]
possible flare star, two planets (b) (2014)[55] and (c) (2020)[56]
Gliese 674 (LHS 449) 14.8492
±0.0018
Ara* 17h 28m 39.9s
−46° 53′ 43″
M3.0V[6] 0.35 9.38 11.09 219.6463
±0.0262[8]
one planet (b) (2007)[57]
LHS 292 (LP 731-58) 14.8706
±0.0041
Sex* 10h 48m 12.6s
−11° 20′ 14″
M6.5V[6] 0.08 15.60 17.32 219.3302
±0.0602[8]
flare star
Gliese 440 (WD 1142-645, LP 145-141)‡ 15.1226
±0.0013
Mus* 11h 45m 42.9s
−64° 50′ 29″
DQ6[6] 0.75 11.50 13.18 215.6753
±0.0181[8]
GJ 1245 A (G 208-44 A) 15.2001
±0.0034
Cyg 19h 53m 54.2s
+44° 24′ 55″
M5.5V[6] 0.11 13.46 15.17 214.5745
±0.0476[8]
flare stars
B (G 208-45) 19h 53m 55.2s
+44° 24′ 56″
M6.0V[6] 0.10 14.01 15.72
C (G 208-44 B) 19h 53m 54.2s
+44° 24′ 55″
M5.5 0.07 16.75 18.46
WISE 1741+2553§ 15.22
±0.20
Her* 17h 41m 24.2s
+25° 53′ 19″
T9 16.53 J 18.18 J 214.3
±2.8[58]
Gliese 876 (Ross 780) 15.2382
±0.0025
Aqr 22h 53m 16.7s
−14° 15′ 49″
M3.5V[6] 0.37 10.17 11.81 214.0380
±0.0356[8]
four planets (d (2005), c (2001), b (1998), and e (2010))[59]
WISE 1639−6847§ 15.450
±0.041
TrA* 16h 39m 40.9s
−68° 47′ 46″
Y0.5 20.57 J 22.10 J 211.11
±0.56[60]
LHS 288 (Luyten 143-23) 15.7586
±0.0034
Car* 10h 44m 21.2s
−61° 12′ 36″
M5.5V[6] 0.11[6] 13.90 15.51 206.9698
±0.0448[8]
GJ 1002 15.8060
±0.0036
Cet 00h 06m 43.8s
−07° 32′ 22″
M5.5V[6] 0.11 13.76 15.40 206.3500
±0.0474[8]
two known planets (b & c, 2022)[61]
DENIS 0255−4700§ 15.877
±0.014
Eri 02h 55m 03.7s
−47° 00′ 52″
L7.5V[6] 0.025-0.065 22.92 24.44 205.4251
±0.1857[8]
[48]
Groombridge 1618 (Gliese 380)$ 15.8857
±0.0017
UMa 10h 11m 22.1s
+49° 27′ 15″
K7.0V[6] 0.67 6.59 8.16 205.3148
±0.0224[8]
flare star, one suspected debris disk
Gliese 412 A 15.9969
±0.0026
UMa 11h 05m 28.6s
+43° 31′ 36″
M1.0V[6] 0.48 8.77 10.34 203.8876
±0.0332[8]
B (WX Ursae Majoris) 11h 05m 30.4s
+43° 31′ 18″
M5.5V[6] 0.10 14.48 16.05 flare star
AD Leonis 16.1939
±0.0024
Leo 10h 19m 36.4s
+19° 52′ 10″
M3.0V[6] 0.39-0.42 9.32 10.87 201.4064
±0.0296[8]
flare star, 1 refuted planet (b[19] in 2020)[62]
Gliese 832 16.2005
±0.0019
Gru* 21h 33m 34.0s
−49° 00′ 32″
M1.5 V[6] 0.45 8.66 10.20 201.3252
±0.0237[8]
possible flare star, two planets; one confirmed (b (2008)),[63] and the other now refuted (c (2014))[64][65]
Gliese 682 (CD-44 11909) 16.3328
±0.0026
Sco* 17h 37m 03.7s
–44° 19′ 09″
M4 V 0.27 10.95 12.45 199.6944
±0.0312[8]
has 2 disputed planets
Omicron2 Eridani
(40 Eridani, Gliese 166)
Keid (A)$ 16.3330
±0.0042
Eri 04h 15m 16.3s
−07° 39′ 10″
K0.5 V 0.84 4.43# 5.93 199.6911
±0.0512[8]
has 1 refuted planet
B‡ 04h 15m 21.8s
−07° 39′ 29″
DA4 0.573 9.52 11.02
C 04h 15m 21.5s
−07° 39′ 22″
M4 V 0.2036 11.24 12.74
EV Lacertae 16.4761
±0.0018
Lac* 22h 46m 49.7s
+44° 20′ 02″
M3.5 V 0.35 10.22 11.70 197.9573
±0.0220[8]
record setting stellar flare observed
70 Ophiuchi (Gliese 702) A$ 16.7074
±0.0087
Oph 18h 05m 27.4s
+02° 29′ 59″
K0 V 0.90 4.21# 5.66 195.2166
±0.1012[46]
B$ 18h 05m 27.5s
+02° 29′ 56″
K5 V 0.70 6.01# 7.46
Altair (Alpha Aquilae)$ 16.730
±0.049
Aql* 19h 50m 47.0s
+08° 52′ 06″
A7 IV-Vn 1.79 0.77# 2.22 194.95
±0.57[66]
EI Cancri (GJ 1116, G 9-38) A 16.800
±0.011
Cnc 08h 58m 15.2s
+19° 45′ 47″
M5.5 V 0.12 14.06 15.50 194.1443
±0.1228[8]
B M V 0.10 14.92 16.36
WISE J150649.97+702736.1§ 16.856
±0.052
UMi* 15h 06m 52.4s
+70° 27′ 25″
T6 13.74 J 15.17 J 193.5
±0.6[58]
GJ 3379 (G 99-49) 16.9861
±0.0027
Ori* 06h 00m 03.5s
+02° 42′ 24″
M3.5 V 0.2312 11.31 12.73 192.0135
±0.0310[8]
DENIS J081730.0−615520§ 17.002
±0.037
Car 08h 17m 30.1s
−61° 55′ 16″
T6 0.015 13.61 J 15.03 J 191.8362
±0.4186[8]
Gliese 445 (LHS 2459, G 254-29) 17.1368
±0.0017
Cam* 11h 47m 41.4s
+78° 41′ 28″
M3.5 V 0.14 10.79 12.19 190.3251
±0.0194[8]
2MASS J15404342−5101357 17.3738
±0.0046
Nor* 15h 40m 43.5s
−51° 01′ 36″
M7 V 0.090 15.26 16.63 187.7290
±0.0496[8]
2MASS 0939−2448 17.41
±0.44
Ant 09h 39m 35.5s
−24° 48′ 28″
T8 V 0.019–0.048 15.61 J 16.97 J 187.3
±4.6[67]
binary brown dwarf
T8 V 0.019–0.038
GJ 3323 (LHS 1723, LP 656-38) 17.5309
±0.0026
Eri 05h 01m 57.4s
−06° 56′ 46″
M4 V 0.1705 12.22 13.57 186.0466
±0.0277[8]
has 2 known planets
Gliese 526 (Wolf 498, HD 119850) 17.7263
±0.0024
Boo* 13h 45m 43.8s
+14° 53′ 29″
M1 V 0.28 8.46 9.78 183.9962
±0.0253[8]
Stein 2051 (Gliese 169.1, G 175-34) A 17.9925
±0.0020
Cam 04h 31m 11.5s
+58° 58′ 37″
M4 V 0.252 11.04 12.33 181.2730
±0.0203[8]
B‡ 04h 31m 12.6s
+58° 58′ 41″
DC5 0.675 12.43 13.72
2MASS J11145133−2618235§ 18.20
±0.14
Hya 11h 14m 51.3s
−26° 18′ 24″
T7.5 0.029–0.048 15.86 J 17.12 J 179.2
±1.4[68]
Gliese 251 (Wolf 294, HD 265866) 18.2146
±0.0028
Gem* 06h 54m 49.0s
+33° 16′ 05″
M3 V 0.360 10.02 11.29 179.0629
±0.0280[8]
has 1 known planet
LP 816-60 18.3305
±0.0038
Cap* 20h 52m 33.0s
−16° 58′ 29″
M3.5 V 0.224 11.50 12.75 177.9312
±0.0365[8]
WISE 0350−5658§ 18.49
±0.24
Ret* 03h 50m 00.3s
−56° 58′ 30″
Y1 22.47 J 23.70 J 176.4
±2.3[18]
LSR J1835+3259 18.5534
±0.0049
Lyr* 18h 35m 37.9s
+32° 59′ 55″
M8.5 V 0.053 18.27 19.50 175.7930
±0.0468[8]
Gliese 205 (Wolf 1453, HD 36395) 18.6042
±0.0022
Ori 05h 31m 27.4s
−03° 40′ 38″
M1 V 0.556 7.95 9.17 175.3131
±0.0204[8]
2MASS J04151954−0935066§ 18.62
±0.18
Eri 04h 15m 19.5s
−09° 35′ 07″
T8 0.03 15.34 J 16.56 J 175.2
±1.7[68]
Gliese 229 (HD 42581) A 18.7906
±0.0018
Lep* 06h 10m 34.6s
−21° 51′ 53″
M1.5 V 0.579 8.14 9.34 173.5740
±0.0170[8]
has 2 known planets
T6 V 0.058 14.01 J 15.21 J
Alsafi (Sigma Draconis)$ 18.7993
±0.0081
Dra 19h 32m 21.6s
+69° 39′ 40″
G9 V 0.85 4.67# 5.87 173.4939
±0.0748[8]
Ross 47 (Gliese 213) 18.8883
±0.0031
Ori 05h 42m 09.3s
+12° 29′ 21″
M4 V 0.35 11.57 12.76 172.6762
±0.0286[8]
Gliese 570
(Lalande 27173, 33 G. Librae)
A$ 19.1987
±0.0074
Lib* 14h 57m 28.0s
−21° 24′ 56″
K4 V 0.802 5.64# 6.79 169.8843
±0.0653[8]
B M1.5 V 0.55 8.30 9.45
C M 0.35 9.96 11.11
T7.5 0.05 15.32 J 16.47 J
Gliese 693 (Luyten 205–128) 19.2078
±0.0053
Pav 17h 46m 32.4s
−57° 19′ 09″
M3 V 0.26 10.76 11.91 169.8042
±0.0465[8]
Gliese 754 (Luyten 347–14) 19.2724
±0.0067
Tel* 19h 20m 48.0s
−45° 33′ 30″
M4 V 0.173 12.23 13.37 169.2351
±0.0588[8]
has 1 candidate planet
Gliese 908 (Lalande 46650, BR Piscium) 19.2745
±0.0032
Psc 23h 49m 12.5s
+02° 24′ 04″
M1 V 0.37 8.98 10.12 169.2163
±0.0281[8]
Gliese 752 (Wolf 1055, HD 180617) A 19.2922
±0.0027
Aql 19h 16m 55.3s
+05° 10′ 08″
M2.5 V 0.46 9.10 10.24 169.0615
±0.0239[8]
has 1 known planet
B (VB 10) 19h 16m 57.6s
+05° 09′ 02″
M8 V 0.075 17.45 18.59 very small and very dim red dwarf
Gliese 588 (CD-40 9712) 19.2996
±0.0031
Lup* 15h 32m 12.9s
−41° 16′ 32″
M2.5 V 0.43 9.31 10.45 168.9965
±0.0270[8]
has 2 candidate planets
Eta Cassiopeiae (Gliese 34) Achird (A)$ 19.3314
±0.0025
Cas* 00h 49m 06.3s
+57° 48′ 55″
G3 V 0.972 3.46# 4.60 168.7186
±0.0216[8]
B K7 V 0.57 7.51 8.65
36 Ophiuchi (Gliese 663) Guniibuu (A)$ 19.4185
±0.0036
Oph 17h 15m 20.9s
−26° 36′ 09″
K1.5 V 0.85 5.07# 6.20 167.9617
±0.0311[8]
B$ 17h 15m 21.0s
−26° 36′ 10″
K1 V 0.85 5.08# 6.21
C$ 17h 16m 13.4s
−26° 32′ 46″
K5 V 0.71 6.32# 7.45
YZ Canis Minoris (Ross 882, Gliese 285) 19.5330
±0.0040
CMi 07h 44m 40.2s
+03° 33′ 09″
M4 V 0.308 11.19 12.30 166.9769
±0.0343[8]
WISE 1541−2250§ 19.54
±0.24
Lib 15h 41m 51.6s
−22° 50′ 25″
Y0.5 0.011 20.99 J 22.10 J 166.9
±2.0[18]
GJ 1005 (Luyten 722-22, G 158-50) A 19.577
±0.035
Cet 00h 15m 28.1s
−16° 08′ 02″
M3.5 V 0.179 11.60 12.71 166.6
±0.3[69]
distance uncertain: 16.28±0.75, 17.91±0.67, 17.0±1.5, 16.26±0.76, 17.26, 19.695±0.095 ly
B M V 0.112 14.02 15.13
HR 7703 (279 G. Sagittarii, HD 191408, Gliese 783, IRAS 20079-3614) A$ 19.609
±0.013
Sgr 20h 11m 11.93s
–36° 06′ 04″
K2.5 V 0.65 5.31# 6.41 166.3272
±0.1065[8]
B M4 V 0.24 11.50 12.60
82 G. Eridani (e Eridani, Gliese 139, HD 20794)$ 19.7045
±0.0093
Eri 03h 19m 55.7s
−43° 04′ 11″
G8 V 0.70 4.26# 5.35 165.5242
±0.0784[8]
has 3 confirmed planets, 3 candidate planets, hot and cold dust disks
Gliese 268 (Ross 986, QY Aurigae) A 19.7414
±0.0076
Aur* 07h 10m 01.8s
+38° 31′ 46″
M4.5 V 0.226 12.05 13.14 165.2147
±0.0636[8]
B M V 0.192 12.45 13.54
Delta Pavonis$ 19.893
±0.015
Pav 20h 08m 43.6s
−66° 10′ 55″
G8 IV 1.051 3.55# 4.62 163.9544
±0.1222[8]
has 1 candidate planet
SIMP J013656.5+093347§ 19.955
±0.057
Psc 01h 36m 56.5s
+09° 33′ 47″
T2.5 0.012 13.25 J 14.32 J 163.4478
±0.4629[8]
rogue planet, 12.7 MJ
2MASS 0937+2931§ 19.96
±0.22
Leo 09h 37m 34.9s
+29° 31′ 41″
T7 0.040 14.65 J 15.71 J 163.39
±1.76[70]
System Star or (sub-) brown dwarf Distance
(ly (±err))[7]
Coordinates:
RADec
(Ep J2000, Eq J2000)[6]
Stellar
class
Mass
M
App. Abs. Parallax
(mas
(±err))

[6][note 1]
Notes and additional
references
Designation Magnitude (mV[6] or mJ)

Distant future and past encounters

[edit]
Graph of the distances of various stars from the Sun during the past 20,000 to future 80,000 years.
Distances of the nearest stars from 20,000 years ago until 80,000 years in the future
Visualisation of the orbit of the Sun (yellow dot and white curve) around the Galactic Centre (GC) in the last galactic year. The red dots correspond to the positions of the stars studied by the European Southern Observatory in a monitoring programme.[71]

Over long periods of time, the slow independent motion of stars change in both relative position and in their distance from the observer. This can cause other currently distant stars to fall within a stated range, which may be readily calculated and predicted using accurate astrometric measurements of parallax and total proper motions, along with spectroscopically determined radial velocities. Although extrapolations can be made into the past or future, they are subject to increasingly significant cumulative errors over very long periods.[2] Inaccuracies of these measured parameters make determining the true minimum distances of any encountering stars or brown dwarfs fairly difficult.[72]

One of the first stars known to approach the Sun particularly close is Gliese 710. The star, whose mass is roughly half that of the Sun, is currently 62 light-years from the Solar System. It was first noticed in 1999 using data from the Hipparcos satellite, and was estimated to pass less than 1.3 light-years (0.40 pc) from the Sun in 1.4 million years.[73] With the release of Gaia's observations of the star, it has since been refined to a much closer 0.178 light-years (0.055 pc), close enough to significantly disturb objects in the Oort cloud, which extends 1.2 light-years (0.37 pc) from the Sun.[74]

Gaia's third data release has provided updated values for many of the candidates in the table below.[75][76][77][78]

Stars that are known to have passed or will pass within 5 light-years of the Sun in the past or future[79][80][81]
Star name Minimum distance
(light-years)
Date of approach
in thousands of years
Current distance
(light-years)
Stellar classification Mass in M Current
apparent magnitude
Current Constellation Current
Right ascension
Current
Declination
Gliese 710 0.167±0.012 1296+24
−23
62.248±0.020 K7V 0.4–0.6 9.6 Serpens 18h 19m 50.843s −01° 56′ 18.98″
HD 7977 0.478+0.104
−0.078
−2764+28
−29
246.74±0.60 G0V ~1.2 9.04 Cassiopeia 01h 20m 31.597s +61° 52′ 57.08″
Scholz's Star and companion brown dwarf 0.82+0.37
−0.22
−78.5±0.7 22.2±0.2 A: M9V
B: T5
A: 0.095
B: 0.063
18.3 Monoceros 07h 20m 03.20s −08° 46′ 51.2″
2MASS J0628+1845 1.61+0.28
−0.24
1720+150
−130
272.28±0.80 M2.5V 0.28 16.2 Gemini 06h 28m 11.593s +18° 45′ 12.91″
2MASS J0805+4624 1.610+0.099
−0.092
−363+13
−14
238.1±1.0 M3V 0.25 17.0 Lynx 08h 05m 29.038s +46° 24′ 51.78″
CD-69 2001 1.616+0.070
−0.068
−1907±10 332.61±0.55 K4V 0.61 11.13 Indus 21h 40m 31.514s −69° 25′ 14.58″
HD 49995 1.70+0.23
−0.20
−4034+94
−98
439.74±0.59 A: F3V
B: M1V
A: 1.48
B: 0.49
8.78 Canis Major 06h 50m 20.810s −18° 37′ 30.58″
2MASS J0621-0101 1.71+0.46
−0.39
−3206+68
−66
428.8±3.1 G5V 0.96 11.9 Orion 06h 21m 34.807s −01° 01′ 55.01″
LSPM J2146+3813 1.8557±0.0048 84.59±0.19 22.9858±0.0034 M5V ~0.15 10.82 Cygnus 21h 46m 22.285s +38° 13′ 03.12″
2MASS J0455+1144 1.94+0.16
−0.15
1702+58
−54
349.50±0.80 M0V 0.50 15.3 Orion 04h 55m 21.427s +11° 44′ 41.25″
2MASS J0734-0637 1.950±0.021 −554.6±3.3 130.66±0.12 M0V 0.50 12.9 Monoceros 07h 34m 39.097s −06° 37′ 12.21″
2MASS J1151-0313 1.98+0.20
−0.18
1017+60
−54
125.88±0.41 M3.5V 0.23 15.3 Virgo 11h 51m 37.434s −03° 13′ 45.24″
UCAC4 076–006432 2.042+0.034
−0.033
−893.8+7.9
−8.0
212.41±0.15 mid K ~0.6 12.69 Mensa 06h 34m 29.385s −74° 49′ 47.12″
2MASS J0120+4739 2.25+0.17
−0.15
473+27
−25
237.56±0.66 M3.5V 0.25 16.5 Andromeda 01h 20m 04.561s +47° 39′ 46.56″
TYC 6760–1510–1 2.46+0.19
−0.18
−1708+44
−47
102.89±0.16 M1.5V 0.58 11.5 Hydra 15h 00m 09.536s −29° 05′ 27.67″
UCAC2 15719371 2.46±0.10 −4282+70
−73
280.80±0.26 K4V 0.66 12.58 Antlia 09h 44m 09.884s −37° 45′ 31.09″
TYC 1662–1962–1 2.637+0.055
−0.054
−1536.6+9.0
−9.1
286.51±0.40 Early K ~0.8 10.95 Vulpecula 21h 14m 32.911s +21° 53′ 32.76″
HD 179939 2.65±0.17 3020±25 334.32±0.88 A3V 1.7 7.23 Aquila 19h 14m 10.043s +07° 45′ 50.72″
BD-21 1529 2.701+0.059
−0.058
−1660.1±6.3 368.48±0.56 G5V ~0.95 9.67 Canis Major 06h 37m 48.004s −21° 22′ 21.94″
2MASS J1310-1307 2.79+0.59
−0.47
−1520+150
−190
433.0±2.6 M2.5V 0.34 16.3 Virgo 13h 10m 30.804s −13° 07′ 33.55″
UPM J1121-5549 2.803±0.020 −282.5+1.6
−1.7
72.498±0.029 M3V 0.29 13.5 Centaurus 11h 21m 18.136s −55° 49′ 17.77″
UCAC4 464–006057 2.812+0.052
−0.051
932±11 101.570±0.086 Early M ~0.4 11.73 Taurus 04h 09m 02.050s +02° 45′ 38.32″
UCAC4 213–008644 2.91+0.13
−0.12
−306+12
−13
80.987±0.048 M5.0 0.17 16.4 Puppis 06h 21m 54.714s −47° 25′ 31.33″
GJ 3649 3.016±0.024 −520.4±3.1 54.435±0.023 M1 0.49 10.85 Leo 11h 12m 38.97s +18° 56′ 05.4″
Ross 248 3.0446±0.0077 38.500±0.096 10.3057±0.0014 M6V 0.136 12.29 Andromeda 23h 41m 54.99s +44° 10′ 40.8″
2MASS J1921-1244 3.08+0.21
−0.19
−3490+120
−130
376.46±0.73 K6V 0.69 12.46 Sagittarius 19h 21m 58.124s −12° 43′ 58.61″
Proxima Centauri 3.123±0.015 28.65±0.27 4.24646±0.00028 M5Ve 0.15 11.05 Centaurus 14h 29m 42.949s −62° 40′ 46.14″
TYC 9387–2515–1 3.220+0.081
−0.079
−1509.1+8.6
−8.7
401.96±0.54 K1V 0.86 11.45 Mensa 06h 18m 54.643s −80° 19′ 16.54″
Alpha Centauri AB 3.242±0.060 29.63+1.00
−0.98
4.321±0.024 A: G2V
B: K1V
A: 1.100
B: 0.907[82]
A: -0.01
B: +1.33
Centaurus 14h 39m 36.495s −60° 50′ 02.31″
Gliese 445 3.3400±0.0051 46.341±0.065 17.1368±0.0017 M4 0.15? 10.8 Camelopardalis 11h 47m 41.377s +78° 41′ 28.18″
2MASS J1638-6355 3.37+0.29
−0.28
−1428+21
−22
468.5±4.2 K2V 0.82 12.44 Triangulum Australe 16h 38m 21.759s −63° 55′ 13.16″
2MASS J0542+3217 3.43+0.75
−0.71
5823+89
−87
884.6±2.4 A: G4V
B: K0V
A: 1.01
B: 0.85
12.80 Auriga 05h 42m 38.349s +32° 17′ 29.85″
2MASS J0625-2408 3.700+0.082
−0.080
−1874±14 534.88±0.93 K/M ~0.5 12.91 Canis Major 06h 25m 42.744s −24° 08′ 35.02″
Barnard's Star 3.7682±0.0031 11.735±0.013 5.96290±0.00044 sdM4 0.144 9.54 Ophiuchus 17h 57m 48.498s +04° 41′ 36.25″
BD+05 1792 3.965±0.040 −962.7±3.0 239.73±0.33 G2V 1.07 8.58 Gemini 07h 48m 07.037s +05° 27′ 22.51″
2MASS J2241-2759 4.05±0.16 −2810+37
−38
411.06±0.76 K7V ~0.5 12.28 Piscis Austrinus 22h 41m 50.996s −27° 59′ 47.04″
2MASS J1724-0522 4.15+0.26
−0.25
3058+54
−52
489.5±1.3 K0V 0.86 12.73 Ophiuchus 17h 24m 55.056s −05° 22′ 11.45″
StKM 1–554 4.217+0.036
−0.035
−549.9+2.9
−3.0
151.97±0.19 M0V 0.65 12.17 Orion 05h 14m 01.871s +05° 22′ 56.26″
GJ 3379 4.227±0.024 −157.43+0.93
−0.94
16.9861±0.0027 M3.5V 0.19 11.31 Orion 06h 00m 03.824s +02° 42′ 22.97″
2MASS J1936+3627 4.23+0.62
−0.57
3830+120
−110
671.6±3.4 G5.5V 0.95 12.2 Cygnus 19h 36m 57.294s +36° 27′ 57.71″
2MASS J0710+5228 4.303±0.039 507.6+3.8
−3.7
90.949±0.050 M3V 0.33 12.52 Lynx 07h 10m 52.167s +52° 28′ 18.49″
HD 146248 4.341+0.040
−0.039
−1141.5±3.7 334.87±0.47 G2/3IV 1.23 9.47 Triangulum Australe 16h 19m 27.875s −64° 50′ 34.38″
2MASS J1724+0355 4.37±0.12 1991+38
−37
254.99±0.26 G8V 0.85 12.54 Ophiuchus 17h 24m 34.633s +03° 55′ 26.75″
StKM 1–1456 4.396±0.043 1240.2+6.9
−6.8
144.934±0.095 A: K5V
B: M8V
A: 0.81
B: 0.09
10.58 Hercules 17h 17m 31.118s +15° 34′ 55.35″
Zeta Leporis 4.43+0.33
−0.30
−878+42
−46
72.81±0.40 A2Vann 2.0 3.55 Lepus 05h 46m 57.341s −14° 49′ 19.02″
Lalande 21185 4.6807±0.0055 21.973±0.033 8.30437±0.00068 M2V 0.39 7.52 Ursa Major 11h 03m 20.194s +35° 58′ 11.55″
HD 68814 4.724+0.090
−0.089
−2242±13 259.85±0.30 G6V 0.98 9.57 Hydra 08h 13m 57.112s −04° 03′ 12.56″
2MASS J1941-4602 4.814+0.050
−0.049
−456.5+4.1
−4.2
66.848±0.033 M4-M6 ~0.15 12.4 Telescopium 19h 41m 53.18s −46° 02′ 31.4″
Schematic view to scale of past and future close approaches of stars to the Sun (Up to 4.5 light-years)

See also

[edit]
[edit]

Notes

[edit]
  1. ^ a b Parallaxes given by RECONS are a weighted mean of values in the sources given, as well as measurements by the RECONS program.

References

[edit]
  1. ^ Weaver, Harold F. (1947). "The Visibility of Stars Without Optical Aid". Publications of the Astronomical Society of the Pacific. 59 (350): 232–243. Bibcode:1947PASP...59..232W. doi:10.1086/125956.
  2. ^ a b Matthews, R. A. (1994). "The Close Approach of Stars in the Solar Neighborhood". Quarterly Journal of the Royal Astronomical Society. 35: 1. Bibcode:1994QJRAS..35....1M.
  3. ^ Bailer-Jones, C. A. L.; Rybizki, J.; Andrae, R.; Fouesnea, M. (2018). "New stellar encounters discovered in the second Gaia data release". Astronomy & Astrophysics. 616 (37): A37. arXiv:1805.07581. Bibcode:2018A&A...616A..37B. doi:10.1051/0004-6361/201833456. S2CID 56269929.
  4. ^ Hall, Shannon (28 May 2018). "Known Close Stellar Encounters Surge in Number". Sky and Telescope. Retrieved 2 June 2018.
  5. ^ de la Fuente Marcos, Raúl; de la Fuente Marcos, Carlos (2022). "An Update on the Future Flyby of Gliese 710 to the Solar System Using Gaia DR3: Flyby Parameters Reproduced, Uncertainties Reduced". Research Notes of the AAS. 6 (6): 136. Bibcode:2022RNAAS...6..136D. doi:10.3847/2515-5172/ac7b95.
  6. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd "The One Hundred Nearest Star Systems". Research Consortium on Nearby Stars (RECONS). 17 September 2007. Retrieved 6 November 2007.
  7. ^ a b From parallax.
  8. ^ a b c d e f g h i j k l m n o p q r s t u v w x y z aa ab ac ad ae af ag ah ai aj ak al am an ao ap aq ar as at au av aw ax ay az ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv 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).
  9. ^ Suárez Mascareño, A.; Faria, J. P.; et al. (2020). "Revisiting Proxima with ESPRESSO". Astronomy & Astrophysics. 639: A77. arXiv:2005.12114. Bibcode:2020A&A...639A..77S. doi:10.1051/0004-6361/202037745. ISSN 0004-6361.
  10. ^ Faria, J. P.; Suárez Mascareño, A.; Figueira, P.; et al. (2022). "A candidate short-period sub-Earth orbiting Proxima Centauri" (PDF). Astronomy & Astrophysics. 658. EDP Sciences: A115. arXiv:2202.05188. Bibcode:2022A&A...658A.115F. doi:10.1051/0004-6361/202142337.
  11. ^ Drake, Nadia (12 April 2019). "A new super-Earth may orbit the star next door". National Geographic. Archived from the original on 13 April 2019. Retrieved 21 April 2019. Video of discovery being discussed (accidentally announced?)
  12. ^ Artigau, Étienne; Cadieux, Charles; Cook, Neil J.; Doyon, René; Vandal, Thomas; et al. (23 June 2022). "Line-by-line velocity measurements, an outlier-resistant method for precision velocimetry". The Astronomical Journal. 164:84 (3) (published 8 August 2022): 18pp. arXiv:2207.13524. Bibcode:2022AJ....164...84A. doi:10.3847/1538-3881/ac7ce6.
  13. ^ Akeson, Rachel; Beichman, Charles; Kervella, Pierre; Fomalont, Edward; Benedict, G. Fritz (20 April 2021). "Precision Millimeter Astrometry of the α Centauri AB System". The Astronomical Journal. 162 (1): 14. arXiv:2104.10086. Bibcode:2021AJ....162...14A. doi:10.3847/1538-3881/abfaff. S2CID 233307418.
  14. ^ Barnard, E. E. (1916). "A small star with large proper motion". Astronomical Journal. 29 (695): 181. Bibcode:1916AJ.....29..181B. doi:10.1086/104156.
  15. ^ González Hernández, J. I.; et al. (October 2024). "A sub-Earth-mass planet orbiting Barnard's star". Astronomy & Astrophysics. 690. arXiv:2410.00569. doi:10.1051/0004-6361/202451311. A79.{{cite journal}}: CS1 maint: numeric names: authors list (link)
  16. ^ a b Luhman, K. L. (2013). "Discovery of a Binary Brown Dwarf at 2 Parsecs from the Sun". The Astrophysical Journal Letters. 767 (1): L1. arXiv:1303.2401. Bibcode:2013ApJ...767L...1L. doi:10.1088/2041-8205/767/1/L1. S2CID 8419422.
  17. ^ Lazorenko, P. F.; Sahlmann, J. (23 August 2018). "Updated astrometry and masses of the LUH 16 brown dwarf binary". Astronomy & Astrophysics. 618: A111. arXiv:1808.07835. Bibcode:2018A&A...618A.111L. doi:10.1051/0004-6361/201833626. S2CID 119540451.
  18. ^ a b c Kirkpatrick, J. Davy; Gelino, Christopher R.; et al. (2021). "The Field Substellar Mass Function Based on the Full-sky 20 pc Census of 525 L, T, and Y Dwarfs". The Astrophysical Journal Supplement Series. 253 (1): 7. arXiv:2011.11616. Bibcode:2021ApJS..253....7K. doi:10.3847/1538-4365/abd107. S2CID 227126954.
  19. ^ a b c Tuomi, M.; el, al. (11 June 2019). "Frequency of planets orbiting M dwarfs in the Solar neighbourhood". arXiv:1906.04644 [astro-ph.EP].
  20. ^ Lafarga, M.; Ribas, I.; Reiners, A.; Quirrenbach, A.; Amado, P. J.; Caballero, J. A.; Azzaro, M.; Béjar, V. J. S.; Cortés-Contreras, M.; Dreizler, S.; Hatzes, A. P.; Henning, Th.; Jeffers, S. V.; Kaminski, A.; Kürster, M.; Montes, D.; Morales, J. C.; Oshagh, M.; Rodríguez-López, C.; Schöfer, P.; Schweitzer, A.; Zechmeister, M. (2021). "The CARMENES search for exoplanets around M dwarfs. Mapping stellar activity indicators across the M dwarf domain". Astronomy and Astrophysics. 652: 652. arXiv:2105.13467. Bibcode:2021A&A...652A..28L. doi:10.1051/0004-6361/202140605. S2CID 235248016.
  21. ^ Hurt, Spencer A.; Fulton, Benjamin; Isaacson, Howard; Rosenthal, Lee J.; Howard, Andrew W.; Weiss, Lauren M.; Petigura, Erik A. (2021), "Confirmation of the Long-Period Planet Orbiting Gliese 411 and the Detection of a New Planet Candidate", The Astronomical Journal, 163 (5): 218, arXiv:2107.09087, Bibcode:2022AJ....163..218H, doi:10.3847/1538-3881/ac5c47, S2CID 236134034
  22. ^ Abuter, R.; et al. (GRAVITY Collaboration) (May 2024). "Astrometric detection of a Neptune-mass candidate planet in the nearest M-dwarf binary system GJ65 with VLTI/GRAVITY". Astronomy & Astrophysics. 685: L9. arXiv:2404.08746. Bibcode:2024A&A...685L...9G. doi:10.1051/0004-6361/202449547.
  23. ^ Benedict, G. Fritz; McArthur, Barbara E.; Gatewood, George; Nelan, Edmund; Cochran, William D.; Hatzes, Artie; Endl, Michael; Wittenmyer, Robert; Baliunas, Sallie L.; Walker, Gordon A. H.; Yang, Stephenson; Kürster, Martin; Els, Sebastian; Paulson, Diane B. (November 2006), "The extrasolar planet e Eridani b – orbit and mass", The Astronomical Journal, 132 (5): 2206–2218, arXiv:astro-ph/0610247, Bibcode:2006AJ....132.2206B, doi:10.1086/508323, S2CID 18603036.
  24. ^ Janson, M.; et al. (September 2008), "A comprehensive examination of the ε Eridani system. Verification of a 4 micron narrow-band high-contrast imaging approach for planet searches", Astronomy & Astrophysics, 488 (2): 771–780, arXiv:0807.0301, Bibcode:2008A&A...488..771J, doi:10.1051/0004-6361:200809984, S2CID 119113471
  25. ^ Jeffers, S. V.; Dreizler, S.; Barnes, J. R.; Haswell, C. A.; Nelson, R. P.; Rodríguez, E.; López-González, M. J.; Morales, N.; Luque, R.; et al. (2020), "A multiple planet system of super-Earths orbiting the brightest red dwarf star GJ887", Science, 368 (6498): 1477–1481, arXiv:2006.16372, Bibcode:2020Sci...368.1477J, doi:10.1126/science.aaz0795, PMID 32587019, S2CID 220075207
  26. ^ ESO. "A temperate exo-Earth around a quiet M dwarf at 3.4 parsecs" (PDF). Retrieved 15 November 2017.
  27. ^ Torres, G.; Andersen, J.; Giménez, A. (2010). "Accurate masses and radii of normal stars: modern results and applications". The Astronomy & Astrophysics Review. 18 (1–2): 67–126. arXiv:0908.2624. Bibcode:2010A&ARv..18...67T. doi:10.1007/s00159-009-0025-1. S2CID 14006009.
  28. ^ General Catalogue of Trigonometric Parallaxes.
  29. ^ Hipparcos Catalogue.
  30. ^ Bessel, F. W. (1839). "Bestimmung der Entfernung des 61sten Sterns des Schwans. Von Herrn Geheimen - Rath und Ritter Bessel". Astronomische Nachrichten (in German). 16 (5–6): 65–96. Bibcode:1838AN.....16...65B. doi:10.1002/asna.18390160502. (page 92) Ich bin daher der Meinung, daß nur die jährliche Parallaxe = 0"3136 als das Resultat der bisherigen Beobachtungen zu betrachten ist A parallax of 313.6 mas yields a distance of 10.4 light years
  31. ^ Kervella, Pierre; Arenou, Frédéric; et al. (2019). "Stellar and substellar companions of nearby stars from Gaia DR2". Astronomy & Astrophysics. 623: A72. arXiv:1811.08902. Bibcode:2019A&A...623A..72K. doi:10.1051/0004-6361/201834371. S2CID 119491061. This PMa offset between 61 Cyg A and B points at the possible presence of a third body in the system, likely orbiting around 61 Cyg B.
  32. ^ Pinamonti, M.; Damasso, M.; Marzari, F.; Sozzetti, A.; Desidera, S.; Maldonado, J.; Scandariato, G.; Affer, L.; Lanza, A. F.; Bignamini, A.; Bonomo, A. S.; Borsa, F.; Claudi, R.; Cosentino, R.; Giacobbe, P.; González-Álvarez, E.; González Hernández, J. I.; Gratton, R.; Leto, G.; Malavolta, L.; Martinez Fiorenzano, A.; Micela, G.; Molinari, E.; Pagano, I.; Pedani, M.; Perger, M.; Piotto, G.; Rebolo, R.; Ribas, I.; et al. (2018). "The HADES RV Programme with HARPS-N at TNG. VIII. GJ15A: A multiple wide planetary system sculpted by binary interaction". Astronomy and Astrophysics. 617: A104. arXiv:1804.03476. Bibcode:2018A&A...617A.104P. doi:10.1051/0004-6361/201732535. S2CID 54990041.
  33. ^ Feng, Fabo; Anglada-Escudé, Guillem; Tuomi, Mikko; Jones, Hugh R. A.; Chanamé, Julio; Butler, Paul R.; Janson, Markus (14 October 2019), "Detection of the nearest Jupiter analog in radial velocity and astrometry data", Monthly Notices of the Royal Astronomical Society, 490 (4): 5002–5016, arXiv:1910.06804, Bibcode:2019MNRAS.490.5002F, doi:10.1093/mnras/stz2912, S2CID 204575783
  34. ^ a b c Chris Gelino, Davy Kirkpatrick, Adam Burgasser. "DwarfArchives.org: Photometry, spectroscopy, and astrometry of M, L, and T dwarfs". caltech.edu. Archived from the original on 13 November 2013. Retrieved 10 June 2012.{{cite web}}: CS1 maint: multiple names: authors list (link) (main page) Archived 11 May 2019 at the Wayback Machine
  35. ^ Dreizler, S.; Jeffers, S. V.; Rodríguez, E.; Zechmeister, M.; Barnes, J.R.; Haswell, C.A.; Coleman, G. A. L.; Lalitha, S.; Hidalgo Soto, D.; Strachan, J.B.P.; Hambsch, F-J.; López-González, M. J.; Morales, N.; Rodríguez López, C.; Berdiñas, Z. M.; Ribas, I.; Pallé, E.; Reiners, Ansgar; Anglada-Escudé, G. (13 August 2019). "Red Dots: A temperate 1.5 Earth-mass planet in a compact multi-terrestrial planet system around GJ1061". Monthly Notices of the Royal Astronomical Society. 493 (1): 536–550. arXiv:1908.04717. Bibcode:2020MNRAS.493..536D. doi:10.1093/mnras/staa248. S2CID 199551874.
  36. ^ Henry, Todd J.; Ianna, Philip A.; Kirkpatrick, J. Davy; Jahreiss, Hartmut (July 1997). "The solar neighborhood IV: discovery of the twentieth nearest star". The Astronomical Journal. 114 (1): 388–395. Bibcode:1997AJ....114..388H. doi:10.1086/118482.
  37. ^ a b Henry, Todd J.; Jao, Wei-Chun; Subasavage, John P.; Beaulieu, Thomas D.; Ianna, Philip A.; Costa, Edgardo; Méndez, René A. (December 2006). "The Solar Neighborhood. XVII. Parallax Results from the CTIOPI 0.9 m Program: 20 New Members of the RECONS 10 Parsec Sample". The Astronomical Journal. 132 (6): 2360–2371. arXiv:astro-ph/0608230. Bibcode:2006AJ....132.2360H. doi:10.1086/508233. S2CID 15002841.
  38. ^ Astudillo-Defru, Nicola; Díaz, Rodrigo F.; Bonfils, Xavier; Almenara, José M.; Delisle, Jean-Baptiste; Bouchy, François; Delfosse, Xavier; Forveille, Thierry; Lovis, Christophe; Mayor, Michel; Murgas, Felipe; Pepe, Francesco; Santos, Nuno C.; Ségransan, Damien; Udry, Stéphane; Wünsche, Anaël (2017). "The HARPS search for southern extra-solar planets. XLII. A system of Earth-mass planets around the nearby M dwarf YZ Ceti". Astronomy & Astrophysics. 605: L11. arXiv:1708.03336. Bibcode:2017A&A...605L..11A. doi:10.1051/0004-6361/201731581. S2CID 119393757.
  39. ^ Astudillo-Defru, Nicola; Forveille, Thierry; Bonfils, Xavier; Ségransan, Damien; Bouchy, François; Delfosse, Xavier; et al. (2017). "The HARPS search for southern extra-solar planets. XLI. A dozen planets around the M dwarfs GJ 3138, GJ 3323, GJ 273, GJ 628, and GJ 3293". Astronomy and Astrophysics. 602. A88. arXiv:1703.05386. Bibcode:2017A&A...602A..88A. doi:10.1051/0004-6361/201630153. S2CID 119418595.
  40. ^ Pozuelos, Francisco J.; et al. (2020). "GJ 273: on the formation, dynamical evolution, and habitability of a planetary system hosted by an M dwarf at 3.75 parsec". Astronomy & Astrophysics. 641: A23. arXiv:2006.09403. Bibcode:2020A&A...641A..23P. doi:10.1051/0004-6361/202038047. S2CID 219721292.{{cite journal}}: CS1 maint: numeric names: authors list (link)
  41. ^ Caballero, J. A.; Reiners, Ansgar; Ribas, I.; Dreizler, S.; Zechmeister, M.; et al. (12 June 2019). "The CARMENES search for exoplanets around M dwarfs. Two temperate Earth-mass planet candidates around Teegarden's Star" (PDF). Astronomy & Astrophysics. 627: A49. arXiv:1906.07196. Bibcode:2019A&A...627A..49Z. doi:10.1051/0004-6361/201935460. ISSN 0004-6361. S2CID 189999121.
  42. ^ Dreizler, S.; Luque, R.; et al. (April 2024). "Teegarden's Star revisited: A nearby planetary system with at least three planets". Astronomy & Astrophysics. 684: A117. arXiv:2402.00923. Bibcode:2024A&A...684A.117D. doi:10.1051/0004-6361/202348033.
  43. ^ Anglada-Escude, G.; et al. (2014). "Two planets around Kapteyn's star : a cold and a temperate super-Earth orbiting the nearest halo red-dwarf". Monthly Notices of the Royal Astronomical Society: Letters. 443: L89–L93. arXiv:1406.0818. Bibcode:2014MNRAS.443L..89A. doi:10.1093/mnrasl/slu076. hdl:2299/19219. S2CID 67807856.
  44. ^ Bortle, Anna; et al. (2021). "A Gaussian Process Regression Reveals No Evidence for Planets Orbiting Kapteyn's Star". The Astronomical Journal. 161 (5): 230. arXiv:2103.02709. Bibcode:2021AJ....161..230B. doi:10.3847/1538-3881/abec89. S2CID 232110395.
  45. ^ Kasper, M.; Biller, B. A.; Burrows, A.; Brandner, W.; Budaj, J.; Close, L. M. (2007). "The very nearby M/T dwarf binary SCR 1845-6357". Astronomy & Astrophysics. 471 (2): 655. arXiv:0706.3824. Bibcode:2007A&A...471..655K. doi:10.1051/0004-6361:20077881. S2CID 1860702.
  46. ^ a b Brown, A. G. A.; et al. (Gaia collaboration) (August 2018). "Gaia Data Release 2: Summary of the contents and survey properties". Astronomy & Astrophysics. 616. A1. arXiv:1804.09365. Bibcode:2018A&A...616A...1G. doi:10.1051/0004-6361/201833051.
  47. ^ Jao, Wei-Chun; Henry, Todd J.; Subasavage, John P.; Brown, Misty A.; Ianna, Philip A.; Bartlett, Jennifer L.; Costa, Edgardo; Méndez, René A. (2005). "The Solar Neighborhood. XIII. Parallax Results from the CTIOPI 0.9 Meter Program: Stars with μ >= 1.0" yr−1 (MOTION Sample)". The Astronomical Journal. 129 (4): 1954. arXiv:astro-ph/0502167. Bibcode:2005AJ....129.1954J. doi:10.1086/428489. S2CID 16164903.
  48. ^ a b Costa, Edgardo; Méndez, René A.; Jao, W. -C.; Henry, Todd J.; Subasavage, John P.; Brown, Misty A.; Ianna, Philip A.; Bartlett, Jennifer (2005). "The Solar Neighborhood. XIV. Parallaxes from the Cerro Tololo Inter-American Observatory Parallax Investigation-First Results from the 1.5 m Telescope Program". The Astronomical Journal. 130 (1): 337. Bibcode:2005AJ....130..337C. doi:10.1086/430473.
  49. ^ George Gatewood; et al. (2003). "An Astrometric Study of the Low-Mass Binary Star Ross 614" (PDF). The Astronomical Journal. 125 (3): 1530–1536. Bibcode:2003AJ....125.1530G. doi:10.1086/346143. S2CID 119597659. Archived from the original (PDF) on 19 December 2021. Retrieved 15 March 2022.
  50. ^ Bailer-Jones, C. A. L.; Rybizki, J.; Andrae, R.; Fouesneau, M. (2010). "The discovery of a very cool, very nearby brown dwarf in the Galactic plane". Monthly Notices of the Royal Astronomical Society. 408 (1): L56. arXiv:1004.0317. Bibcode:2010MNRAS.408L..56L. doi:10.1111/j.1745-3933.2010.00927.x. S2CID 16032606.
  51. ^ Leggett, Sandy K.; Saumon, Didier; Marley, Mark S.; Lodders, Katharina; Canty, J.; Lucas, Philip W.; Smart, Richard L.; Tinney, Chris G.; Homeier, Derek; Allard, France; Burningham, Ben; Day-Jones, Avril; Fegley, Bruce; Ishii, Miki; Jones, Hugh R. A.; Marocco, Federico; Pinfield, David J.; Tamura, Motohide (2012). "The Properties of the 500 K Dwarf UGPS J072227.51-054031.2 and a Study of the Far-red Flux of Cold Brown Dwarfs". The Astrophysical Journal. 748 (2): 74. arXiv:1201.2973. Bibcode:2012ApJ...748...74L. doi:10.1088/0004-637X/748/2/74. S2CID 14171934.
  52. ^ Bailer-Jones, C. A. L.; Rybizki, J.; Andrae, R.; Fouesneau, M. (2010). "Discovery of a very cool brown dwarf amongst the ten nearest stars to the Solar System". arXiv:1004.0317v1 [astro-ph.SR].
  53. ^ "Nearby star hosts closest alien planet in the 'habitable zone'". Phys.org. 16 December 2015. Retrieved 16 December 2015. The planet, more than four times the mass of the Earth, is one of three that the team detected around a red dwarf star called Wolf 1061.
  54. ^ Quirrenbach, A.; et al. (2022), "The CARMENES search for exoplanets around M dwarfs", Astronomy & Astrophysics, 663: A48, arXiv:2203.16504, Bibcode:2022A&A...663A..48Q, doi:10.1051/0004-6361/202142915, S2CID 247835988.
  55. ^ The Lick–Carnegie exoplanet survey: Gliese 687 b: A Neptune-mass planet orbiting a nearby red dwarf Archived March 27, 2014, at the Wayback Machine
  56. ^ Feng, Fabo; Shectman, Stephen A.; Clement, Matthew S.; Vogt, Steven S.; Tuomi, Mikko; Teske, Johanna K.; Burt, Jennifer; Crane, Jeffrey D.; Holden, Bradford; Sharon Xuesong Wang; Thompson, Ian B.; Diaz, Matias R.; Paul Butler, R. (2020), "Search for Nearby Earth Analogs. III. Detection of ten new planets, three planet candidates, and confirmation of three planets around eleven nearby M dwarfs", The Astrophysical Journal Supplement Series, 250 (2): 29, arXiv:2008.07998, Bibcode:2020ApJS..250...29F, doi:10.3847/1538-4365/abb139, S2CID 221150644 Accepted for publication by ApJS
  57. ^ "The Extrasolar Planet Encyclopaedia — Catalog Listing". Extrasolar Planets Encyclopaedia. Archived from the original on 2 July 2007.
  58. ^ a b Kirkpatrick, J. Davy; Martin, Emily C.; Smart, Richard L.; Cayago, Alfred J.; Beichman, Charles A.; Marocco, Federico; Gelino, Christopher R.; Faherty, Jacqueline K.; Cushing, Michael C.; Schneider, Adam C.; Mace, Gregory N.; Tinney, Christopher G.; Wright, Edward L.; Lowrance, Patrick J.; Ingalls, James G.; Vrba, Frederick J.; Munn, Jeffrey A.; Dahm, Scott E.; McLean, Ian S. (2019). "Preliminary Trigonometric Parallaxes of 184 Late-T and Y Dwarfs and an Analysis of the Field Substellar Mass Function into the "Planetary" Mass Regime". The Astrophysical Journal Supplement. 240 (19): 19. arXiv:1812.01208. Bibcode:2019ApJS..240...19K. doi:10.3847/1538-4365/aaf6af. S2CID 119451195.
  59. ^ Rivera, Eugenio J.; et al. (July 2010). "The Lick-Carnegie Exoplanet Survey: A Uranus-mass Fourth Planet for GJ 876 in an Extrasolar Laplace Configuration". The Astrophysical Journal. 719 (1): 890–899. arXiv:1006.4244. Bibcode:2010ApJ...719..890R. doi:10.1088/0004-637X/719/1/890. S2CID 118707953.
  60. ^ Fontanive, C.; Bedin, L. R.; Bardalez Gagliuffi, D. C. (1 February 2021). "The Y dwarf population with HST: unlocking the secrets of our coolest neighbours - I. Overview and first astrometric results". Monthly Notices of the Royal Astronomical Society. 501 (1): 911–915. arXiv:2011.13873. Bibcode:2021MNRAS.501..911F. doi:10.1093/mnras/staa3732. ISSN 0035-8711.
  61. ^ Suárez Mascareño, A.; González-Alvarez, E.; et al. (November 2022). "Two temperate Earth-mass planets orbiting the nearby star GJ 1002". Astronomy & Astrophysics. 670: A5. arXiv:2212.07332. Bibcode:2023A&A...670A...5S. doi:10.1051/0004-6361/202244991. S2CID 254353639.
  62. ^ Carleo, I.; et al. (2020). "The GAPS Programme at TNG XXI – A GIARPS case-study of known young planetary candidates: Confirmation of HD 285507 b and refutation of AD Leo b". Astronomy & Astrophysics. A5: 638. arXiv:2002.10562. Bibcode:2020A&A...638A...5C. doi:10.1051/0004-6361/201937369. S2CID 211296466.{{cite journal}}: CS1 maint: numeric names: authors list (link)
  63. ^ Bailey, Jeremy; et al. (2009). "A Jupiter-like Planet Orbiting the Nearby M Dwarf GJ832". The Astrophysical Journal. 690 (1): 743–747. arXiv:0809.0172. Bibcode:2009ApJ...690..743B. doi:10.1088/0004-637X/690/1/743. S2CID 17172233.
  64. ^ Wittenmyer, R. A.; Tuomi; et al. (2014). "GJ 832c: A super-earth in the habitable zone". The Astrophysical Journal. 791 (2): 114. arXiv:1406.5587. Bibcode:2014ApJ...791..114W. doi:10.1088/0004-637X/791/2/114. S2CID 12157837.
  65. ^ Gorrini, P.; Astudillo-Defru, N.; Dreizler, S.; et al. (2022). "Detailed stellar activity analysis and modelling of GJ 832". Astronomy & Astrophysics. 664. EDP Sciences: A64. arXiv:2206.07552. Bibcode:2022A&A...664A..64G. doi:10.1051/0004-6361/202243063. ISSN 0004-6361.
  66. ^ van Leeuwen, F. (November 2007), "Validation of the new Hipparcos reduction", Astronomy and Astrophysics, 474 (2): 653–664, arXiv:0708.1752, Bibcode:2007A&A...474..653V, doi:10.1051/0004-6361:20078357, S2CID 18759600
  67. ^ Burgasser, Adam J.; Tinney, C. G.; Cushing, Michael C.; Saumon, Didier; Marley, Mark S.; Bennett, Clara S.; Kirkpatrick, J. Davy (2008). "2MASS J09393548-2448279: The Coldest and Least Luminous Brown Dwarf Binary Known?" (PDF). The Astrophysical Journal. 689 (1): L53–L56. Bibcode:2008ApJ...689L..53B. doi:10.1086/595747.
  68. ^ a b Dupuy, Trent J.; Liu, Michael C. (2012). "The Hawaii Infrared Parallax Program. I. Ultracool Binaries and the L/T Transition". The Astrophysical Journal Supplement. 201 (2): 19. arXiv:1201.2465. Bibcode:2012ApJS..201...19D. doi:10.1088/0067-0049/201/2/19. S2CID 119256363.
  69. ^ Benedict, G. F.; Henry, T. J.; Franz, O. G.; McArthur, B. E.; Wasserman, L. H.; Jao, Wei-Chun; Cargile, P. A.; Dieterich, S. B.; Bradley, A. J.; Nelan, E. P.; Whipple, A. L. (2016). "The Solar Neighborhood. XXXVII. The Mass–Luminosity Relation for Main-Sequence M Dwarfs". The Astronomical Journal. 152 (5): 141. arXiv:1608.04775. Bibcode:2016AJ....152..141B. doi:10.3847/0004-6256/152/5/141. S2CID 54029447.
  70. ^ Schilbach, E.; Röser, S.; Scholz, R.-D. (2009). "Trigonometric parallaxes of ten ultracool subdwarfs". Astronomy and Astrophysics. 493 (2): L27–L30. arXiv:0811.4136. Bibcode:2009A&A...493L..27S. doi:10.1051/0004-6361:200811281. S2CID 17774863.
  71. ^ "Milky Way Past Was More Turbulent Than Previously Known". ESO News. European Southern Observatory. 6 April 2004. After more than 1,000 nights of observations spread over 15 years, they have determined the spatial motions of more than 14,000 solar-like stars residing in the neighbourhood of the Sun.
  72. ^ See also: Stellar kinematics.
  73. ^ García-Sánchez, Joan; Preston, Robert A.; Jones, Dayton L.; Weissman, Paul R.; Lestrade, Jean-François; Latham, David W.; Stefanik, Robert P. (February 1999). "Stellar Encounters with the Oort Cloud Based on Hipparcos Data". The Astronomical Journal. 117 (2): 1042–1055. Bibcode:1999AJ....117.1042G. doi:10.1086/300723. S2CID 122929693.
  74. ^ Bailer-Jones, C. A. L.; Rybizki, J.; Andrae, R.; Fouesneau, M. (13 August 2018). "New stellar encounters discovered in the second data release". Astronomy & Astrophysics. 616: A37. arXiv:1805.07581. Bibcode:2018A&A...616A..37B. doi:10.1051/0004-6361/201833456. S2CID 56269929.
  75. ^ Bailer-Jones, C. A. L. (13 July 2022). "Stars that approach within one parsec of the Sun: New and more accurate encounters identified in Gaia Data Release 3". The Astrophysical Journal Letters. 935 (1): 152. arXiv:2207.06258. Bibcode:2022ApJ...935L...9B. doi:10.3847/2515-5172/ac842b. S2CID 251154282.
  76. ^ Bobylev, Vadim; Bajkova, Anisa (14 July 2022). "Search for Close Stellar Encounters with the Solar System Based on Data from the Gaia DR3 Catalogue". Astronomy Letters. 48 (9): 542–549. arXiv:2206.14443. Bibcode:2022AstL...48..542B. doi:10.1134/S1063773722080011. S2CID 256832377.
  77. ^ de la Fuente Marcos, Raúl; de la Fuente Marcos, Carlos (28 June 2022). "An Update on the Future Flyby of Gliese 710 to the Solar System Using Gaia DR3: Flyby Parameters Reproduced, Uncertainties Reduced". Research Notes of the AAS. 6 (6): 136. Bibcode:2022RNAAS...6..136D. doi:10.3847/2515-5172/ac7b95.
  78. ^ de la Fuente Marcos, Carlos; de la Fuente Marcos, Raúl (28 July 2022). "The Closest Past Flyby of a Known Star to the Solar System: HD 7977, UCAC4 237-008148 or WISE J072003.20-084651.2?". Research Notes of the AAS. 6 (7): 152. Bibcode:2022RNAAS...6..152D. doi:10.3847/2515-5172/ac842b. S2CID 251154282.
  79. ^ Table 3, Bobylev, Vadim V. (March 2010). "Searching for Stars Closely Encountering with the Solar System". Astronomy Letters. 36 (3): 220–226. arXiv:1003.2160. Bibcode:2010AstL...36..220B. doi:10.1134/S1063773710030060. S2CID 118374161.
  80. ^ Bailer-Jones, C. A. L.; Rybizki, J.; Andrae, R.; Fouesneau, M. (19 May 2018). "New stellar encounters discovered in the second Gaia data release". Astronomy & Astrophysics. 616 (37): A37. arXiv:1805.07581. Bibcode:2018A&A...616A..37B. doi:10.1051/0004-6361/201833456. S2CID 56269929.
  81. ^ Bobylev, Vadim; Bajkova, Anisa (29 June 2022). "Search for Close Stellar Encounters with the Solar System Based on Data from the Gaia DR3 Catalogue". Astronomy Letters. 48 (9): 542–549. arXiv:2206.14443. Bibcode:2022AstL...48..542B. doi:10.1134/S1063773722080011. S2CID 256832377.
  82. ^ "A Family Portrait of the Alpha Centauri System - VLT Interferometer Studies the Nearest Stars". European Southern Observatory. 15 March 2003. Retrieved 24 January 2011.
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