List of exoplanets discovered in 2019

From Wikipedia, the free encyclopedia

This list of exoplanets discovered in 2019 is a list of confirmed exoplanets that were first observed during 2019.[1][2]

For exoplanets detected only by radial velocity, the listed value for mass is a lower limit. See Minimum mass for more information.

Name Mass (MJ) Radius (RJ) Period (days) Semi-major axis (AU) Temp. (K)[3] Discovery method Distance (ly) Host star mass (M) Host star temp. (K) Remarks
7 Canis Majoris c 0.87 996.00 2.153 radial vel. 64.6 1.34 4826
Beta Pictoris c 9 1200 2.7 radial vel. 64.43 1.76
CI Tauri b 11.6+2.9
−2.7 		8.9891±0.0202 radial vel. 515.3±3.9 0.90±0.02
DS Tucanae Ab 0.509±0.015 8.138268±0.000011 850 transit 143.89±0.22 1.01±0.06 5428±80
Epsilon Indi Ab 3.25 16510 11.55 64.25 radial vel. 11.87 0.75
Gliese 49 b 0.0177+0.0021
−0.0021 		13.8508+0.0053
−0.0051 		0.0905±0.0011 radial vel. 32.145±0.01 0.515±0.019 3805±51
Gliese 143 b 0.09637+0.00827
−0.00840 		0.2280839±0.0282262 35.589+0.006
−0.005 		0.1932±0.0002 transit 53.25±0.02 0.76+0.03
−0.02
Gliese 357 b 0.00579 0.1086 3.93072 0.035 525 transit 30.80 0.342 3505
Gliese 357 c 0.0107 9.1247 0.061 401.2 radial vel. 30.80 0.342 3505
Gliese 357 d 0.019 55.661 0.204 219.6 radial vel. 30.80 0.342 3505 Potentially habitable exoplanet
0.04097 ± 0.006 3.822±0.001 0.082±0.002 radial vel. 48.79 0.56±0.01 3879±67
Gliese 411 b 0.00941±0.00145 12.9532±0.0079 349.83±0.32 radial vel. 8.284 0.386±0.039 3563±60
0.028+0.0053
−0.0057 		24.160+0.061
−0.047 		0.1344+0.0052
−0.0051 		radial vel. 46.7102 0.3816±0.069 0.55±0.06
Gliese 686 b 0.022±0.003 15.53209+0.00166
−0.00167 		0.091±0.004 379+24
−25 		radial vel. 26.612±0.008 0.42±0.05 3663±68
Gliese 3512 b 0.463 203.59 0.3380 radial vel. 30.95 0.123 3081 [4]
0.05213+0.00296
−0.00299 		13.352±0.003 0.082±0.002 radial vel. 69.6±0.1 0.41±0.03 3387±51
 [id] 3.58 1.676 4.7869491 0.06555 1930 transit 1122 1.65 7394 [5]
 [id] <6.78 1.87 2.74432452 0.04739 4000 transit 1073 1.89 8450 [5][6]
0.76 1.067 2.5441828 0.03763 1625 transit 2510 1.10 5702
0.921 1.251 4.2042001 0.05412 1367 transit 2034 1.20 6214
0.602 1.688 4.324799 0.06043 1902 transit 1882 1.57 6536
3.147 1.139 2.3506210 0.03493 1413.4 transit 913 1.03 5587
1.03 1.095 4.2180896 0.05798 1721 transit 1605 1.46 7175
12.9+1.8
−1.6 		1.384+0.079
−0.074 		1.8882378±0.0000015 0.03632+0.00074
−0.00087 		2730+140
−160 		transit 4263+196
−202 		0.81+0.50
−0.33 		1.08+0.16
−0.14
0.415±0.020 1.026+0.025
−0.027 		11.53533+0.00079
−0.00080 		0.1097+0.0011
−0.0013 		1228.3+10.0
−9.9 		transit 260.121 1.324+0.042
−0.046 		5521±60
1.17±0.12 1.44±0.05 4.12688+0.00005
−0.00004 		0.0568±0.0006 2061±28 transit 645.72+2.77
−2.28 		1.43+0.05
−0.04 		6801±76
0.210±0.062 158.991±1.440 0.533±0.011 radial vel. 100.2 0.80±0.05 4914+51
−32
26.77+4.40
−2.20 		14763.405+4901.655
−1599.795 		12.40+2.60
−0.90 		radial vel. 141.9±0.17 0.76±0.71 5868±27
0.0236+0.0034
−0.0032 		0.146±0.005 4.75615±0.00017 0.0522±0.0012 1001.0±11.5 transit 146.36±0.23 0.90±0.03 5125±50
0.0255+0.0057
−0.0053 		0.213±0.011 17.1784±0.0016 0.1268±0.0038 642±10 transit 146.36±0.23 0.90±0.03 5125±50
0.207±0.081 84.288±0.127 0.362±0.007 radial vel. ±95.11 0.89±0.05 5605+247
−132
HD 21749 c <0.0116 0.0796+0.0057
−0.0052 		7.78993+0.00051
−0.00044 		0.0695+0.0021
−0.0023 		701+25
−23 		transit 53.261±0.023 0.73±0.07 4640±100
0.05638+0.00444
−0.04405 		17.667+0.142
−0.095 		0.121±0.001 transit 127.46±0.13 0.75+0.04
−0.03
0.05405+0.00337
−0.04333 		29.625+0.224
−0.171 		0.170±0.001 transit 127.46±0.13 0.75+0.04
−0.03
0.0371±0.0098 2.0455±0.0002 0.034±0.001 radial vel. 179.4 1.22±0.07 6034+32
−53
4.48+0.30
−0.28 		6019.320+679.365
−262.980 		6.19+0.45
−0.23 		radial vel. 122.2±0.22 0.86±0.05 5160±63
0.027±0.005 3.2498±0.0004 0.041±0.001 radial vel. 75.93 0.87±0.05 5576+50
−46
0.0560±0.0110 45.791±0.070 0.246±0.005 radial vel. 102.9 0.95±0.05 5676+32
−87
HD 65216c 1.295±0.062 577.6±1.328 1.301±0.020 radial vel. 114.7±0.1 0.95±0.01 5718±8 Rediscovered in 2019 after false positive in 2013[7]
3.67+0.30
−0.25 		11611.2975+5055.06
−905.820 		10.50+2.90
−0.55 		radial vel. 113.1385 1.15±0.07 5744±24
16.88+0.69
−0.65 		10354.8375+551.5275
−270.2850 		9.62+0.36
−0.26 		radial vel. 142.2±0.22 1.08±0.06 5770±36
2.5 130 imaging 603 2.4 10000 Discovered using study of disk kinematics
0.3584±0.0456 3090.942±295.049 4.074±0.270 radial vel. 205.05 0.95±0.05 5436+144
−69
0.0352±0.0072 120.878±0.446 0.439±0.009 radial vel. 86.50 0.77±0.04 4792+66
−54
22.16 1756.2 3.16 radial vel. 503 1.36 4850
0.03839+0.00315
−0.0044 		105.9+0.09
−0.1 		0.3357+0.0099
−0.01 		radial vel. 19.28±0.07 0.45±0.04 3557±51
8.37+0.34
−0.36 		7462.0575+80.3550
−76.7025 		12.40+2.60
−0.90 		radial vel. 155.9±0.42 1.01±0.06 5386±60
1.017+0.070
−0.068 		1.545+0.052
−0.060 		3.308958±0.000083 0.05208+0.00064
−0.00068 		2132+28
−30 		transit 480.1+8.2
−7.8 		1.72+0.06
−0.07 		6272+77
−71
0.108±0.022 96.045±0.317 0.461±0.009 radial vel. 245.9 1.42±0.08 5635+82
−99
0.4817±0.0733 649.918±8.599 1.487±0.031 radial vel. 137.8 1.04±0.06 5790+38
−50
0.0409±0.0079 25.201±0.025 0.143±0.003 radial vel. 42.4 0.61±0.04 4127+149
−94
0.0278+0.0021
−0.0020 		0.1557+0.0045
−0.0046 		1.008035+0.000021
−0.000020 		0.02012+0.00015
−0.00012 		transit 156.45721±0.4566189 1.068+0.020
−0.018 		5978±50 A transiting 1-day-period super-Earth with an Earth-like composition around a bright (V=7.9) star unveiled by TESS
0.06277+0.00434
−0.00428 		4.78503+0.00056
−0.000051 		0.056798+0.00044
−0.00032 		1265.4+7.3
−8.4 		radial vel. 156.45721±0.4566189 1.068+0.020
−0.018 		5978±50
0.0522±0.0041 0.420±0.015 6.03607+0.00064
−0.00063 		0.06356±0.00265 1073±20 transit 307.98 1.03±0.03 5527±65
0.20 1728 2.729 radial vel. 210 0.91 5683
0.190±0.018 0.836+0.031
−0.028 		14.2767±0.0037 0.1228+0.00025
−0.00026 		transit 310.0931 1.212±0.074 5080±90 Hot Saturn-type planet confirmed by TESS
9.70+1.10
−1.00 		22482+4200
−4100 		18.5±2.3 radial vel. 101.7±0.12 1.67±0.11 5830±44
1.78 2058 2.827 radial vel. 192 0.71 4981
0.0400±0.0085 41.516±0.077 0.217±0.004 radial vel. 108.25 0.79±0.05 4881+55
−81
0.02712±0.00579 7.760±0.003 0.063±0.001 radial vel. 61.09 0.57±0.03 4021+226
−146
0.03914±0.00664 15.144±0.008 0.0990±0.0020 radial vel. 61.09 0.57±0.03 4021+226
−146
0.0592±0.0129 87.190±0.381 0.335±0.007 radial vel. 105.5 0.66±0.04 4146+107
−110
20.5±4.5 345±6 2450±150 imaging 477.2±8.2 3.75±1.25 Brown dwarf
HR 858 b 0.1860+0.0061
−0.0057 		3.58599±0.00015 0.0480+0.0010
−0.0011 		1572+22
−19 		transit 104.35 1.145+0.074
−0.080 		6201±50
HR 858 c 0.1730±0.0062 5.97293+0.00060
−0.00053 		0.0674+0.0014
−0.0016 		1326+18
−16 		transit 104.35 1.145+0.074
−0.080 		6201±50
HR 858 d 0.1931+0.0077
−0.0074 		11.2300+0.0011
−0.0010 		0.1027+0.0022
−0.0025 		1075+15
−13 		transit 104.35 1.145+0.074
−0.080 		6201±50
HR 5183 b 3.23 27000 18 171 radial vel. 102.7 1.07 5794 Exoplanet found with one of the most elliptical orbits as of 2019
K2-32e 0.0901+0.0089
−0.008 		4.34882+0.00069
−0.00075 		0.04951±0.00055 transit 516.6±4.2 0.856±0.028 With a radius almost identical to that of the Earth it is almost certainly a terrestrial planet
0.216 2.198884 1093.7 transit 598 0.57 3841
0.089+0.011
−0.01 		3.96151+0.00046
−0.00051 		transit 845.82±10.63 0.61±0.06
0.35±0.11 25.4556±0.0047 0.189±0.011 transit 524.414±21 1.40±0.25 6771±303
0.154+0.012
−0.012 		26.5841+0.0018
−0.0017 		0.1346±0.0011 296±10 transit 245.3±0.7 0.46±0.01 3655±80
0.02358 0.195 4.00498 1093.7 transit 259 0.33 3385
0.109+0.019
−0.015 		3.80464+0.00091
−0.00105 		transit 1568.81+31.64
−29.03 		1.07±0.03
0.105+0.012
−0.009 		8.0468+0.0024
−0.0025 		transit 800.91±13.67 0.91±0.03
0.1270 3.3596055 1229.9 transit 362 0.80 5213
0.2175 7.4500177 943.2 transit 362 0.80 5213
0.132+0.012
−0.009 		0.70531±0.00005 transit 1638.22±25.34 0.94±0.04 5499±109 3rd planet discovered in 2020[8]
0.0664 0.273±0.014 9.21165+0.00033
−0.00034 		0.0923±0.0066 1230±38 transit 897±12 1.19+0.07
−0.08 		6302±120 [9] Two planets on a retrograde orbit[10]
0.774±0.047 1.006±0.050 48.36685+0.00041
−0.00040 		0.0923±0.0066 676±16 transit 897±12 1.19+0.07
−0.08 		6302±120 [9] Two planets on a retrograde orbit[10]
0.0204±0.0036 0.1418+0.0085
−0.0064 		2.225177+0.000066
−0.000068 		0.03261±0.00044 transit 295±2 0.93±0.04 5520±60
0.0771±0.0138 0.235+0.010
−0.009 		16.9841±0.0008 0.13±0.01 795+33
−28 		transit 372.76+2.67
−2.64 		1.00±0.03 5725±65
0.219+0.031
−0.022 		13.1225+0.0011
−0.0012 		750+170
−50 		transit 1290±22 0.96+0.04
−0.03 		5532±78
0.148+0.019
−0.017 		2.50387+0.00022
−0.00023 		1425+79
−54 		transit 1230±20 0.99+0.03
−0.03 		5612±50
0.335±0.062 {0.897+0.011
−0.005 		4.024867±0.000015 0.0451+0.0006
−0.0014 		852+14
−6 		transit 736.1±7.8 0.74±0.04 4444±70
K2-296b 0.167+0.018
−0.04 		28.1656+0.0027
−0.0028 		transit 521.78±4.57 0.41+0.11
−0.05
0.062+0.005
−0.004 		2.13174±0.00022 transit 831.31±5.48 0.78+0.09
−0.17
0.098+0.012
−0.011 		4.16959+0.00051
−0.00053 		transit 1441.42±26.65 0.8+0.08
−0.16
0.152+0.053
−0.028 		4.50756+0.00062
−0.0006 		transit 1219.21±16.28 0.93+0.08
−0.1 		5724±72 Two more planets in star system discovered in 2020[8]
0.09+0.021
−0.012 		2.87814+0.00023
−0.00026 		transit 528.67±5.87 0.22+0.04
−0.06
K2-301b [ru] 0.145+0.015
−0.017 		5.29711+0.00074
−0.0007 		transit 1491.42±44.98 0.56±0.05 4114±99
0.08+0.017
−0.018 		2.25372±0.00047 transit 359.49±3.52 0.41+0.1
−0.08 		Two more planets in system discovered in 2020[8]
0.086+0.01
−0.013 		1.58252+0.00017
−0.00018 		transit 1034.57±9.59 0.71+0.09
−0.03
0.118+0.007
−0.008 		2.28943±0.00019 transit 1380.78±23.94 0.83+0.09
−0.12
0.194+0.06
−0.037 		18.0983+0.006
−0.0058 		transit 2030.88±33.92 1.11+0.14
−0.12
0.143+0.012
−0.014 		34.885+0.011
−0.01 		transit 931.54±6.69 0.91+0.04
−0.16
0.1+0.011
−0.008 		15.2841+0.0037
−0.0029 		transit 1053.09±20.65 0.98+0.04
−0.03 		6004+77
−78 		Two more planets in system are suspected,[11] second planet in system confirmed in 2021[12]
0.884±0.087 3.38628±0.00002 transit 1.09±0.09 6100±263
0.2307±0.0112 13.6030±0.0013 0.0980±0.0040 536±18 transit 1133.22 0.690±0.038 4684±79
0.2400±0.0130 65.5500±0.0089 0.280±0.006 316±10 transit 1133.22 0.690±0.038 4684±79
<13 1.11±0.07 3650+1280
−1130 		4.5±1.0 183+25
−18 		transit 1826.48 0.90±0.09 4898±68
0.938+0.048
−0.044 		1.323±0.025 2.255251+0.000011
−0.000012 		0.03302+0.00068
−0.00064 		1561±20 transit 409.07±1.14 0.94+0.06
−0.05 		5899±49
5.18 1.272 5.5514926 0.06969 1459 transit 313.2 1.46 6509
Kepler-47d 0.05984+0.07501
−0.03672 		0.628+0.059
−0.044 		187.366+0.069
−0.051 		0.6992+0.0031
−0.0033 		transit 4900 0.957+0.013
−0.015
Kepler-65e 0.653+0.056
−0.055 		258.8+1.5
−1.3 		0.362±0.007 radial vel. 999.3±8.8 1.25±0.06 6211±66
0.0658±0.0031 75.732±0.012 0.3395±0.0041 timing 3026.64 0.91±0.03 5401±108
Kepler-88d 3.15±0.15 1409+14
−13 		2.45±0.02 radial vel. 1243±7 1.022+0.023
−0.026 		5513±67 [13]
Kepler-411e 0.0340±0.0035 31.509728±0.000085 0.186±0.003 503±9 timing 500.94±1.57 0.87±0.04 [14]
22 2500 4.2 timing 1318 1.5
0.028±0.001 0.17±0.02 13.608±0.00006 0.11229 transit 3812.7570 1.02
0.0014±0.001 0.17±0.03 20.4415±0.0013 0.1472 transit 3812.7570 1.02
7.693±0.054 237.68977±0.08237 timing 4013.68±73.27 1.21 This detection arose from a search for eclipse timing variations among the more than 2,000 eclipsing binaries observed by Kepler.
18 2.2 microlensing 21000 0.48
3.283+3.468
−1.835 		0.342+0.070
−0.085 		microlensing 21700+3090
−4400 		0.087+0.092
−0.049
0.11+0.05
−0.04 		3.45+0.98
−0.95 		microlensing 14774.88 0.760+0.340
−0.270 		[15][16]
2.0+2.0
−1.1 		1.8+0.6
−0.5 		microlensing 19569.3826 0.37+0.36
−0.20
0.710+0.800
−0.420 		1.6±0.6 microlensing 21200.16 0.33+0.36
−0.20
0.348 0.763 microlensing 3150 0.09
LHS 3844 b 0.1162±0.0020 0.46292913±0.00000190 0.00622±0.00017 805±20 transit 48.60±0.03 0.15±0.01 3036±77
0.0999 0.9480050 0.009690 650 transit 86.41 0.14 2960
0.206 4.989963 0.029392 370 transit 86.41 0.14 2960
0.00157+0.00094
−0.00063 		0.071±0.004 2.25314±0.00002 0.0233±0.0017 transit 34.64 0.31±0.01 3367±150
0.00755+0.00566
−0.00252 		0.12+0.007
−0.006 		3.690621+0.000013
−0.000014 		0.0324±0.0023-0.0024 transit 34.64 0.31±0.01 3367±150
0.0107+0.0085
−0.0044 		0.14±0.012 7.45086+0.00004
−0.00005 		0.052±0.004 transit 34.64 0.31±0.01 3367±150
0.04185+0.00315
−0.00346 		14.4399+0.0078
−0.0087 		0.0876+0.0022
−0.0021 		radial vel. 57.53±0.07 0.43±0.03 3475±51
LTT 1445 Ab 0.0069 0.123 5.35882 0.03807 433 transit 22.4 0.26 3337 [17]
0.600 0.48 microlensing 23200 0.03 [18]
 [ja] 0.229±0.037 1.136±0.023 3.3569866±0.0000026 0.0382±0.0013 952±24 transit 309.5±8.5 0.66+0.07
−0.06 		4987±41 [19]
 [ja] 1.339 1.326 0.8820590 0.01677 transit 1010 0.77 4730 [20]
0.93 1.09 2.49970 0.035 1345 transit 1420 0.89 5241
2.90 1.07 4.43527 0.058 1448 transit 1420 1.34 6330
NSVS 14256825 b 14.15±0.16 3225±22 3.12±0.07 timing 2734.2±137.31 0.42±0.07 40000
NY Virginis c 5.54 8799 timing 1800
2.54 2.07 microlensing 1380 0.34
0.0563+0.0302
−0.0277 		2.62+0.58
−0.60 		microlensing 22000+3300
−4200 		0.55±0.28
0.43 1.70 microlensing 3730 0.30
0.02062+0.00285
−0.00254 		1.103+0.118
−0.107 		microlensing [21]
0.04383±0.00491 0.97±0.13 microlensing 18400±2400 0.23±0.03
4.8 5480 6.1 microlensing 10400 1.0 5912
1.8 6.1 microlensing 23000 0.18
2.8 0.80 microlensing 23000 0.18
PDS 70b 8.0±6.0 >1.3 43500 22 imaging 369.96±1.70 0.76±0.02 3972±36
PDS 70c 8.0±4.0 34.5±2 imaging 369.96±1.7 0.76±0.02 3972±36
0.668 1.062 3.506195 0.0423 transit 330 0.822 5052
1.88±0.25 1.70±0.03 {2.0320460±0.0000097 0.0352±0.0002 transit 2364.6337 1.409±0.026 6387±38
0.371±0.062 1.285±0.022 3.71495±0.00100 0.0474±0.0008 1457±14 transit 902.5±11 1.03±0.05 5738±51
1.19±0.16 1.009±0.014 1.540731±0.000038 0.0234±0.0003 1134±9 transit 689.5±5.2 0.72±0.02 4309±31
0.736±0.090 1.543±0.040 1.645321±0.000010 0.0286±0.0006 1955±25 transit 1760±33 1.16±0.07 6124±46
SDSS J1228+1040 b 0.0009+0.0045
−0.000758 		0.0857±0.00021 0.0034±0.000009 1800 timing 413.337977±0.4892346 0.705±0.05 The smallest known exoplanet discovered.
Teegarden b 0.00330+0.00041
−0.00038 		4.9100±0.0014 0.0252+0.0008
−0.0009 		radial vel. 12.50±0.013 0.09±0.01 2904±51
Teegarden c 0.00349+0.00050
−0.00047 		11.409±0.009 0.0443+0.0014
−0.0015 		226 radial vel. 12.50±0.013 0.09±0.01 2904±51 Potentially habitable exoplanet
0.0299±0.00277 0.2432±0.00669 4.65382±0.00033 0.05186+0.00086
−0.00077 		1037±11 transit 363.3382±1.435088 0.859+0.044
−0.038 		5320±39 [22][23]
0.02086±0.00311 0.24614±0.009 9.15059+0.0007
−0.00082 		0.814±0.0013 827.8±8.6 transit 363.3382±1.435088 0.859+0.044
−0.038 		5320±39 [24][23]
0.0428±0.0038 0.2614±0.0152 19.98+0.005
−0.0056 		0.05186+0.00086
−0.00077 		638.1±6.6 transit 363.3382±1.435088 0.859+0.044
−0.038 		5320±39 [25][23]
1.75+0.14
−0.17 		1.38±0.04 5.857342+0.000065
−0.000066 		0.0583+0.0013
−0.0018 		1493+29
−32 		transit 1095.89±6.52 1.25+0.07
−0.12 		6003+104
−98
1.22 1.489 4.231306 0.0580 1669 transit 1359 1.44 6495
5.42+0.22
−0.20 		0.965+0.032
−0.029 		9.47725+0.00064
−0.00079 		0.0914±0.0017 transit 1097.418 1.128+0.065
−0.061 		5645±50
0.059±0.002 0.714+0.268
−0.179 		17.1607 0.1293+0.0067
−0.0051 		628+13
−11 		transit 583±3 0.77 5026±125 Semi-major axes are strongly variable due to planet-planet interaction on a timescale of few years[26][27][28]
0.56±0.02 0.902±0.018 34.525528 0.2069+0.0107
−0.0082 		497+10
−8 		transit 583±3 0.77 5026±125 Semi-major axes are strongly variable due to planet-planet interaction on a timescale of few years[26][27][28]
 [ja] 0.0050 0.1112 3.360080 0.0306 528 transit 73.23 0.40 3386 [29][30]
 [ja] 0.0193 0.216 5.660172 0.0472 424 transit 73.23 0.40 3386 [29][30]
 [ja] 0.0150 0.190 11.38014 0.0733 340 transit 73.23 0.40 3386 [29][30]
1.463+0.10
−0.096 		1.02+0.71
−0.29 		1.651144±0.000018 0.02734+0.00061
−0.00053 		1714+20
−21 		transit 643.8±5.9 0.998+0.068
−0.057 		5640+34
−37 		[31]
0.667+0.042
−0.041 		1.171+0.052
−0.051 		3.739494±0.000038 0.04666+0.00096
−0.0011 		1192+39
−36 		transit 489.9+23.5
−22.5 		0.968+0.061
−0.068 		5570+150
−140 		[31]
V1298 Tauri b 0.911+0.049
−0.053 		24.13861+0.00102
−0.00090 		0.1687+0.0025
−0.0026 		668±22 transit 353.9±2.3 1.10±0.05 4970±120 [32]
V1298 Tauri c 0.499 8.24958 0.0825 845±27 transit 353.9 1.10 4970 [33]
V1298 Tauri d 0.572 12.4032 0.1083 677±22 transit 353.9 1.10 4970 [33]
V1298 Tauri e 0.780 60 0.308 492+66
−104 		transit 353.9 1.10 4970 [33]
0.174±0.039 2.1558 0.035 timing 404 1.22 6400
0.202±0.077 7.63±0.17 timing 763.206±48.9235 1.12 5800
0.101±0.005 0.63±0.03 5.443540±0.000004 0.0641±0.0011 1270±30 transit 368.55 1.19±0.06 6050±50
0.561 1.304 5.6114118 0.0681 1604 transit 2080 1.34 6110
1.084 0.980 3.8186244 0.05040 1642 transit 2530 1.17 5965
0.990 1.208 3.0652907 0.04403 1571 transit 2080 1.21 6229
0.508±0.038 1.58+0.66
−0.83 		3.071722±0.000001 0.03957±0.00058 1142±32 transit 580.5583 0.876±0.038 5017±70
1.66 1.81 3.3448285 0.0558 2470 transit 1360 2.07 9360 [34]
0.9 1.24 3.409264 0.048 transit 830 1.3 6600
0.299±0.034 1.184+0.071
−0.059 		4.159±0.0000034 0.00542±0.00069 1186+32
−26 		transit 1444.872 1.04±0.04 5839±70
0.148 0.850 3.3769848 0.0451 1479 transit 1080 1.08 5638
0.502±0.047 1.47+0.94
−0.33 		4.11177±0.0000051 0.0463±0.00075 1111±30 transit 1069.79292 1.00±0.03 0.784±0.038
0.57 1.33 5.18170 0.0627 1480 transit 2090 1.23 6000 [34]
0.980 1.25 9.38755 0.0904 1160 transit 897 1.12 5900 [34]
1.0±0.1 1.15±0.09 5.367753±0.000004 0.0663±0.0008 1500±50 transit 1796.323 1.35±0.05 6400±100
2.30 1.23 2.8786765 0.0408 1620 transit 1610 1.09 5910 [34]
2.2+1.9
−1.1 		3.5+1.1
−0.9 		microlensing 23157.1+2609.25
−7827.753 		0.49+0.38
−0.25 		[35]
3.1±0.9 1.53+0.07
−0.04 		2.82406±0.00003 0.047±0.004 2100±100 transit 559.47±3.05 1.75±0.05 7800±200 Mascara-4b: A3V giant star and a planet on retrograde orbit.[36]
0.79+1.3
−0.39 		3.4+2.1
−1 		microlensing 0.1+0.17
−0.05 		[37]
9.51+2.72
−1.69 		microlensing 10500+1500
−1100 		0.29+0.07
−0.05 		[38]
L 1159-16 b 0.088+0.060
−0.035 		241.59+4.6
−4.0 		0.403+0.039
−0.047 		radial vel. 14.584±0.007 0.15 3158 [39][40]
L 1159-16 c 0.222+0.083
−0.068 		766.954+16.710
−19.237 		0.871+0.087
−0.100 		radial vel. 14.584±0.007 0.15 3158 [39][40]
TOI-175b 0.00126+0.00050
−0.00048 		0.0642+0.0046
−0.0035 		2.2531136+0.0000012
−0.0000015 		0.02191+0.00080
−0.00084 		627+33
−36 		transit 34.636±0.010 0.273±0.030 3415±135 [41] To date, it is the lowest mass planet confirmed, or measured, using the radial velocity technique.[42] Host star also known as L 98-59.[43]

Specific exoplanet lists[]


References[]

  1. ^ "NASA Exoplanet Archive". exoplanetarchive.ipac.caltech.edu. California Institute of Technology. Retrieved 27 March 2018.
  2. ^ "Extrasolar Planet's Catalogue (sic)". Kyoto University. Retrieved 20 December 2019.
  3. ^ "The Extrasolar Planets Encyclopaedia". Retrieved 20 January 2018.
  4. ^ Morales, J. C.; et al. (2019). "A giant exoplanet orbiting a very-low-mass star challenges planet formation models". Science. 365 (6460): 1441–1445. arXiv:1909.12174. Bibcode:2019Sci...365.1441M. doi:10.1126/science.aax3198. ISSN 0036-8075. PMID 31604272. S2CID 202888425.
  5. ^ a b Zhou, G.; et al. (2019), "Two New HATNet Hot Jupiters around a Stars and the First Glimpse at the Occurrence Rate of Hot Jupiters from TESS", The Astronomical Journal, 158 (4): 141, arXiv:1906.00462, Bibcode:2019AJ....158..141Z, doi:10.3847/1538-3881/ab36b5, S2CID 173990300
  6. ^ Bello-Arufe, Aaron; Cabot, Samuel H. C.; Mendonça, João M.; Buchhave, Lars A.; Rathcke, Alexander D. (2021), Mining the Ultra-Hot Skies of HAT-P-70b: Detection of a Profusion of Neutral and Ionized Species, arXiv:2112.03292
  7. ^ Wittenmyer, Robert A.; et al. (2019). "Truly eccentric – I. Revisiting eight single-eccentric planetary systems". Monthly Notices of the Royal Astronomical Society. 484 (4): 5859–5867. arXiv:1901.08471. Bibcode:2019MNRAS.484.5859W. doi:10.1093/mnras/stz290.
  8. ^ a b c Adams, Elisabeth R.; Jackson, Brian; Johnson, Samantha; Ciardi, David R.; Cochran, William D.; Endl, Michael; Everett, Mark E.; Furlan, Elise; Howell, Steve B.; Jayanthi, Prasanna; MacQueen, Phillip J.; Matson, Rachel A.; Partyka-Worley, Ciera; Schlieder, Joshua; Scott, Nicholas J.; Stanton, Sevio M.; Ziegler, Carl (2020), ULTRA SHORT PERIOD PLANETS IN K2 III: NEIGHBORS ARE COMMON WITH 12 NEW MULTI-PLANET SYSTEMS AND 26 NEWLY VALIDATED PLANETS IN CAMPAIGNS 0-8, 10, arXiv:2011.11698
  9. ^ a b Hjorth, M.; Justesen, A. B.; Hirano, T.; Albrecht, S.; Gandolfi, D.; Dai, F.; Alonso, R.; Barragán, O.; Esposito, M.; Kuzuhara, M.; Lam, K. W. F.; Livingston, J. H.; Montanes-Rodriguez, P.; Narita, N.; Nowak, G.; Prieto-Arranz, J.; Redfield, S.; Rodler, F.; Van Eylen, V.; Winn, J. N.; Antoniciello, G.; Cabrera, J.; Cochran, W. D.; Csizmadia, Sz; De Leon, J.; Deeg, H.; Eigmüller, Ph; Endl, M.; Erikson, A.; et al. (2019), "K2-290: a warm Jupiter and a mini-Neptune in a triple-star system", Monthly Notices of the Royal Astronomical Society, 484 (3): 3522, arXiv:1901.03716, Bibcode:2019MNRAS.484.3522H, doi:10.1093/mnras/stz139
  10. ^ a b Hjorth, Maria; Albrecht, Simon; Hirano, Teruyuki; Winn, Joshua N.; Dawson, Rebekah I.; Zanazzi, J. J.; Knudstrup, Emil; Sato, Bun'ei (2021), "A backward-spinning star with two coplanar planets", Proceedings of the National Academy of Sciences of the United States of America, 118 (8): e2017418118, arXiv:2102.07677, Bibcode:2021PNAS..11820174H, doi:10.1073/pnas.2017418118, PMC 7923373, PMID 33593909
  11. ^ Kovacs, Geza (2020), "More planetary candidates from K2 Campaign 5 using TRAN_K2", Astronomy & Astrophysics, 643: A169, arXiv:2008.10075, Bibcode:2020A&A...643A.169K, doi:10.1051/0004-6361/202038726, S2CID 221266076
  12. ^ De Leon, J. P.; Livingston, J.; Endl, M.; Cochran, W. D.; Hirano, T.; García, R. A.; Mathur, S.; Lam, K W F.; Korth, J.; Trani, A. A.; Dai, F.; Díez Alonso, E.; Castro-González, A.; Fridlund, M.; Fukui, A.; Gandolfi, D.; Kabath, P.; Kuzuhara, M.; Luque, R.; Savel, A. B.; Gill, H.; Dressing, C.; Giacalone, S.; Narita, N.; Palle, E.; Van Eylen, V.; Tamura, M. (2021), "37 new validated planets in overlapping K2 campaigns", Monthly Notices of the Royal Astronomical Society, 508: 195–218, arXiv:2108.05621, doi:10.1093/mnras/stab2305
  13. ^ Weiss, Lauren M.; Fabrycky, Daniel C.; Agol, Eric; Mills, Sean M.; Howard, Andrew W.; Isaacson, Howard; Petigura, Erik A.; Fulton, Benjamin; Hirsch, Lea; Sinukoff, Evan (2020-04-29). "The Discovery of the Long-Period, Eccentric Planet Kepler-88 d and System Characterization with Radial Velocities and Photodynamical Analysis" (PDF). The Astronomical Journal. 159 (5): 242. arXiv:1909.02427. Bibcode:2020AJ....159..242W. doi:10.3847/1538-3881/ab88ca. ISSN 1538-3881. S2CID 202539420.
  14. ^ Sun, L.; Ioannidis, P.; Gu, S.; Schmitt, J. H. M. M.; Wang, X.; Kouwenhoven, M. B. N. (2019), "Kepler-411: a four-planet system with an active host star", Astronomy & Astrophysics, 624: A15, arXiv:1902.09719, Bibcode:2019A&A...624A..15S, doi:10.1051/0004-6361/201834275, S2CID 102481339
  15. ^ Jung, Youn Kil; Gould, Andrew; Zang, Weicheng; Hwang, Kyu-Ha; Ryu, Yoon-Hyun; Han, Cheongho; Yee, Jennifer C.; Albrow, Michael D.; Chung, Sun-Ju; Shin, In-Gu; Shvartzvald, Yossi; Zhu, Wei; Cha, Sang-Mok; Kim, Dong-Jin; Kim, Hyoun-Woo; Kim, Seung-Lee; Lee, Chung-Uk; Lee, Dong-Joo; Lee, Yongseok; Park, Byeong-Gon; Pogge, Richard W.; KMTNet Collaboration; Penny, Matthew T.; Mao, Shude; Fouqué, Pascal; Wang, Tianshu; CFHT Collaboration (2018), "KMT-2017-BLG-0165Lb: A Super-Neptune mass planet Orbiting a Sun-like Host Star", The Astronomical Journal, 157 (2): 72, arXiv:1809.01288, Bibcode:2019AJ....157...72J, doi:10.3847/1538-3881/aaf87f, S2CID 119096973
  16. ^ Ryu, Yoon-Hyun; Mróz, Przemek; Gould, Andrew; Hwang, Kyu-Ha; Kim, Hyoun-Woo; Yee, Jennifer C.; Albrow, Michael D.; Chung, Sun-Ju; Jung, Youn Kil; Shin, In-Gu; Shvartzvald, Yossi; Zang, Weicheng; Cha, Sang-Mok; Kim, Dong-Jin; Kim, Seung-Lee; Lee, Chung-Uk; Lee, Dong-Joo; Lee, Yongseok; Park, Byeong-Gon; Han, Cheongho; Pogge, Richard W.; Udalski, Andrzej; Poleski, Radek; Skowron, Jan; Szymański, Michał K.; Soszyński, Igor; Pietrukowicz, Paweł; Kozłowski, Szymon; Ulaczyk, Krzysztof; et al. (2021), "KMT-2017-BLG-2820 and the Nature of the Free-Floating Planet Population", The Astronomical Journal, 161 (3): 126, arXiv:2010.07527, Bibcode:2021AJ....161..126R, doi:10.3847/1538-3881/abd55f, S2CID 222378863
  17. ^ Winters, Jennifer G.; et al. (2019), "Three Red Suns in the Sky: A Transiting, Terrestrial Planet in a Triple M-dwarf System at 6.9 pc", The Astronomical Journal, 158 (4): 152, arXiv:1906.10147, Bibcode:2019AJ....158..152W, doi:10.3847/1538-3881/ab364d, S2CID 195584444
  18. ^ Kondo, Iona; et al. (2019), "MOA-bin-29b: A Microlensing Gas-giant Planet Orbiting a Low-mass Host Star", The Astronomical Journal, 158 (6): 224, arXiv:1905.01239, Bibcode:2019AJ....158..224K, doi:10.3847/1538-3881/ab4e9e, S2CID 145052576
  19. ^ Eigmüller, Philipp; et al. (2019), "NGTS-5b: A highly inflated planet offering insights into the sub-Jovian desert", Astronomy & Astrophysics, 625: A142, arXiv:1905.02593, Bibcode:2019A&A...625A.142E, doi:10.1051/0004-6361/201935206, S2CID 146809360
  20. ^ Vines, Jose I.; et al. (2019), "NGTS-6b: An ultrashort period hot-Jupiter orbiting an old K dwarf", Monthly Notices of the Royal Astronomical Society, 489 (3): 4125–4134, arXiv:1904.07997, doi:10.1093/mnras/stz2349
  21. ^ OGLE-2018-BLG-0532Lb: Cold Neptune With Possible Jovian Sibling, 2020, arXiv:1905.08148
  22. ^ "The Extrasolar Planet Encyclopaedia — TOI-813 b". exoplanet.eu.
  23. ^ a b c Nielsen, L. D.; Gandolfi, D.; Armstrong, D. J.; Jenkins, J. S.; Fridlund, M.; Santos, N. C.; Dai, F.; Adibekyan, V.; Luque, R.; Steffen, J. H.; Esposito, M.; Meru, F.; Sabotta, S.; Bolmont, E.; Kossakowski, D.; Otegi, J. F.; Murgas, F.; Stalport, M.; Rodler, F.; Díaz, M. R.; Kurtovic, N. T.; Ricker, G.; Vanderspek, R.; Latham, D. W.; Seager, S.; Winn, J. N.; Jenkins, J. M.; Allart, R.; Almenara, J. M.; et al. (2020), "Mass determinations of the three mini-Neptunes transiting TOI-125", Monthly Notices of the Royal Astronomical Society, 492 (4): 5399, arXiv:2001.08834, Bibcode:2020MNRAS.492.5399N, doi:10.1093/mnras/staa197
  24. ^ "exoplanet.eu toi-125_c".
  25. ^ "exoplanet.eu toi-125_d".
  26. ^ a b Teachey, Alex; Jansen, Tiffany; Bakos, Gaspar; Torres, Guillermo; Hartman, Joel; Nesvorný, David; Kipping, David (2019). "A resonant pair of warm giant planets revealed by TESS". Monthly Notices of the Royal Astronomical Society. 486 (4): 4980–4986. arXiv:1902.03900. doi:10.1093/mnras/stz1141.
  27. ^ a b Dawson, Rebekah I.; et al. (2019). "TOI-216b and TOI-216 c: Two Warm, Large Exoplanets in or Slightly Wide of the 2:1 Orbital Resonance". The Astronomical Journal. 158 (2): 65. arXiv:1904.11852. Bibcode:2019AJ....158...65D. doi:10.3847/1538-3881/ab24ba. S2CID 135466349.
  28. ^ a b Dawson, Rebekah I.; Huang, Chelsea X.; Brahm, Rafael; Collins, Karen A.; Hobson, Melissa J.; Jordán, Andrés; Dong, Jiayin; Korth, Judith; Trifonov, Trifon; Abe, Lyu; Agabi, Abdelkrim; Bruni, Ivan; Butler, R. Paul; Barbieri, Mauro; Collins, Kevin I.; Conti, Dennis M.; Crane, Jeffrey D.; Crouzet, Nicolas; Dransfield, Georgina; Evans, Phil; Espinoza, Néstor; Gan, Tianjun; Guillot, Tristan; Henning, Thomas; Lissauer, Jack J.; Jensen, Eric L. N.; Sainte, Wenceslas Marie; Mékarnia, Djamel; Myers, Gordon; et al. (2021), "Precise transit and radial-velocity characterization of a resonant pair: a warm Jupiter TOI-216c and eccentric warm Neptune TOI-216b", The Astronomical Journal, 161 (4): 161, arXiv:2102.06754, Bibcode:2021AJ....161..161D, doi:10.3847/1538-3881/abd8d0, S2CID 231924886
  29. ^ a b c "太陽系外惑星「TOI 270 b、c、d」を発見。地球外生命体の存在は?". sorae. 2019-07-30. Retrieved 2021-01-08.
  30. ^ a b c Van Eylen, Vincent; Astudillo-Defru, Nicola; Bonfils, Xavier; Livingston, J.; Hirano, T.; Luque, Rafael; Lam, K. W. F.; Justesen, A. B.; Winn, J. N.; Gandolfi, D.; Nowak, G.; Palle, E.; Albrecht, S.; Dai, F.; Campos Estrada, B.; Owen, J. E.; Foreman-Mackey, D.; Fridlund, M.; Korth, J.; Mathur, S.; Forveille, Thierry; Mikal-Evans, T.; Osborne, H. L. M.; Ho, C. S. K.; Almenara, José M.; Artigau, Étienne; Barragán, O.; Bouchy, François; Cabrera, J.; et al. (2021), "Masses and compositions of three small planets orbiting the nearby M dwarf L231-32 (TOI-270) and the M dwarf radius valley", Monthly Notices of the Royal Astronomical Society, arXiv:2101.01593, doi:10.1093/mnras/stab2143
  31. ^ a b Davis, Allen B.; Wang, Songhu; et al. (2020). "TOI 564 b and TOI 905 b: Grazing and Fully Transiting Hot Jupiters Discovered by TESS". Astronomical Journal. 160 (5): 229. arXiv:1912.10186. Bibcode:2020AJ....160..229D. doi:10.3847/1538-3881/aba49d. hdl:1721.1/134083. S2CID 209444463.
  32. ^ David, Trevor J.; Cody, Ann Marie; Hedges, Christina L.; Mamajek, Eric E.; Hillenbrand, Lynne A.; Ciardi, David R.; Beichman, Charles A.; Petigura, Erik A.; Fulton, Benjamin J.; Isaacson, Howard T.; Howard, Andrew W.; Gagné, Jonathan; Saunders, Nicholas K.; Rebull, Luisa M.; Stauffer, John R.; Vasisht, Gautam; Hinkley, Sasha (2019), "A Warm Jupiter-sized Planet Transiting the Pre-main-sequence Star V1298 Tau", The Astronomical Journal, 158 (2): 79, arXiv:1902.09670, Bibcode:2019AJ....158...79D, doi:10.3847/1538-3881/ab290f, S2CID 119003936
  33. ^ a b c David, Trevor J.; Petigura, Erik A.; Luger, Rodrigo; Foreman-Mackey, Daniel; Livingston, John H.; Mamajek, Eric E.; Hillenbrand, Lynne A. (2019), "Four newborn planets transiting the young solar analog V1298 Tau", The Astrophysical Journal, 885 (1): L12, arXiv:1910.04563, Bibcode:2019ApJ...885L..12D, doi:10.3847/2041-8213/ab4c99, S2CID 204008446
  34. ^ a b c d Hellier, Coel; Anderson, D. R.; Barkaoui, K.; Benkhaldoun, Z.; Bouchy, F.; Burdanov, A.; Collier Cameron, A.; Delrez, L.; Gillon, M.; Jehin, E.; Nielsen, L. D.; Maxted, P. F. L.; Pepe, F.; Pollacco, D.; Pozuelos, F. J.; Queloz, D.; Ségransan, D.; Smalley, B.; Triaud, A. H. M. J.; Turner, O. D.; Udry, S.; West, R. G. (2019), "WASP-South hot Jupiters: WASP-178b, WASP-184b, WASP-185b & WASP-192b", Monthly Notices of the Royal Astronomical Society, 490 (1): 1479, arXiv:1907.11667, Bibcode:2019MNRAS.490.1479H, doi:10.1093/mnras/stz2713
  35. ^ Yang, Hongjing; et al. (2020). "KMT-2016-BLG-1836Lb: A Super-Jovian Planet from a High-cadence Microlensing Field". The Astronomical Journal. 159 (3): 98. arXiv:1908.10011. Bibcode:2020AJ....159...98Y. doi:10.3847/1538-3881/ab660e. S2CID 201646063.
  36. ^ "MASCARA-4 b/bRing-1b - A retrograde hot Jupiter around the bright A3V star HD 85628". GroundAI.
  37. ^ "The Extrasolar Planet Encyclopaedia — OGLE-2016-BLG-1227 b". exoplanet.eu.
  38. ^ "The Extrasolar Planet Encyclopaedia — OGLE-2013-BLG-0911L b". exoplanet.eu.
  39. ^ a b Barnes, J. R.; et al. (2019-06-11), Frequency of planets orbiting M dwarfs in the Solar neighbourhood, arXiv:1906.04644v1, Bibcode:2019arXiv190604644T.
  40. ^ a b 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, arXiv:2008.07998, doi:10.3847/1538-4365/abb139, S2CID 221150644
  41. ^ Kostov, Veselin B.; Schlieder, Joshua E.; et al. (2019). "The L 98-59 System: Three Transiting, Terrestrial-size Planets Orbiting a Nearby M Dwarf". The Astronomical Journal. 158 (1): 32. arXiv:1903.08017. Bibcode:2019AJ....158...32K. doi:10.3847/1538-3881/ab2459. hdl:1721.1/124742. ISSN 1538-3881. S2CID 118855908.
  42. ^ Demangeon, O. D. S.; Zapatero Osorio, M. R.; Alibert, Y.; Barros, S. C. C.; Adibekyan, V.; Tabernero, H. M.; Antoniadis-Karnavas, A.; Camacho, J. D.; al, et (2021). "Warm terrestrial planet with half the mass of Venus transiting a nearby star" (PDF). Astronomy & Astrophysics. 653: A41. arXiv:2108.03323. Bibcode:2021A&A...653A..41D. doi:10.1051/0004-6361/202140728. S2CID 236957385.
  43. ^ "Planet L 98-59 b". exoplanet.eu. Retrieved 6 August 2021.
Retrieved from ""