List of gravitational wave observations

This page contains a list of observed/candidate gravitational wave events.

The first measurement of a gravitational wave event

Origin and nomenclature

edit

Direct observation of gravitational waves, which commenced with the detection of an event by LIGO in 2015,[1] plays a key role in gravitational wave astronomy. LIGO has been involved in all subsequent detections to date, with Virgo joining in August 2017.[2]

Joint observation runs of LIGO and VIRGO, designated "O1, O2, etc." span many months, with months of maintenance and upgrades in-between designed to increase the instruments sensitivity and range. Within these run periods, the instruments are capable of detecting gravitational waves.

The first run, O1, ran from September 12, 2015, to January 19, 2016, and succeeded in its first gravitational wave detection. O2 ran for a greater duration, from November 30, 2016, to August 25, 2017.[3] O3 began on April 1, 2019, which was briefly suspended on September 30, 2019, for maintenance and upgrades, thus O3a. O3b marks resuming of the run and began on November 1, 2019. Due to the COVID-19 pandemic[4] O3 was forced to end prematurely.[5] O4 began on May 24, 2023; initially planned for March, the project needed more time to stabilize the instruments.

The O4 observing run has been extended from one year to 18 months, following plans to make further upgrades for the O5 run.[2][6] Updated observing plans are published on the official website, containing the latest information on these runs.[6] There is a two month commissioning break planned from January to March 2024, after which observations will resume for the remainder of O4.[7]

Gravitational wave events are named starting with the prefix GW, while observations that trigger an event alert but have not (yet) been confirmed are named starting with the prefix S.[8] Six digits then indicate the date of the event, with the two first digits representing the year, the two middle digits the month and two final digits the day of observation. This is similar to the systematic naming for other kinds of astronomical event observations, such as those of gamma-ray bursts.

Probable detections that are not confidently identified as gravitational wave events are designated LVT ("LIGO-Virgo trigger"). Known gravitational wave events come from the merger of two black holes (BH), two neutron stars (NS), or a black hole and a neutron star (BHNS).[9][10] Some objects are in the mass gap between the largest predicted neutron star masses (Tolman–Oppenheimer–Volkoff limit) and the smallest known black holes.

List of gravitational wave events

edit
Confirmed events by distance
4
8
12
16
20
24
28
32
36
40
<100 Mpc
100-200 Mpc
200-500 Mpc
500-1000 Mpc
1-2 Gpc
2-5 Gpc
5+ Gpc
  •   BNS mergers
  •   NS-BH mergers
  •   mass gap
  •   BBH mergers
Initial objects by mass
5
10
15
20
25
30
35
40
45
50
1-2 M
2-3 M
3-5 M
5-10 M
10-20 M
20-30 M
30-40 M
40-50 M
50-60 M
60-70 M
70-80 M
80-90 M
90-100 M
100-110 M
  •   neutron star
  •   mass gap
  •   black hole
List of binary merger events[11][12]
GW event
and time (UTC)[n 1]
Date
published
Location
area[n 2]
(deg2)
Signal to
Noise Ratio
(SNR)
Luminosity
distance

(Mpc)[n 3]
Energy
radiated/c2
(M)
[n 4]
Chirp mass (M)
[n 5]
Effective spin[n 6] Primary Secondary Remnant Notes Ref.
Type Mass (M) Type Mass (M) Type Mass (M) Spin[n 7]
GW150914
09:50:45
2016-02-11
179; mostly to the south
24.4+0.8
−0.8
430+150
−170
3.1+0.4
−0.4
28.6+1.6
−1.5
−0.01+0.12
−0.13
BH
[n 8]
35.6+4.8
−3.0
BH
[n 9]
30.6+3.0
−4.4
BH
63.1+3.3
−3.0
0.69+0.05
−0.04
First GW detection;
first BH merger observed
[18][19][17]
GW151012 [fr]
09:54:43
2016-06-15
1555
10.0+0.5
−0.5
1060+540
−480
1.5+0.5
−0.5
15.2+2.0
−1.1
0.04+0.28
−0.19
BH
23.3+14.0
−5.5
BH
13.6+4.1
−4.8
BH
35.7+9.9
−3.8
0.67+0.13
−0.11
Formerly candidate LVT151012;
accepted as astrophysical since February 2019
[20][12][11]
GW151226
03:38:53
2016-06-15
1033
13.1+0.0
−1.2
440+180
−190
1.0+0.1
−0.2
8.9+0.3
−0.3
0.18+0.20
−0.12
BH
13.7+8.8
−3.2
BH
7.7+2.2
−2.6
BH
20.5+6.4
−1.5
0.74+0.07
−0.05
[21][22]
GW170104
10:11:58
2017-06-01
924
13.0+0.0
−0.0
960+430
−410
2.2+0.5
−0.5
21.5+2.1
−1.7
−0.04+0.17
−0.20
BH
31.0+7.2
−5.6
BH
20.1+4.9
−4.5
BH
49.1+5.2
−3.5
0.66+0.08
−0.10
[13][23]
GW170608
02:01:16
2017-11-16
396; to the north
14.9+0.5
−0.8
320+120
−110
0.9+0.0
−0.1
7.9+0.2
−0.2
0.03+0.19
−0.07
BH
10.9+5.3
−1.7
BH
7.6+1.3
−2.1
BH
17.8+3.2
−0.7
0.69+0.04
−0.04
Smallest BH progenitor
masses to date
[24]
GW170729
18:56:29
2018-11-30
1033
10.2+0.6
−0.4
2750+1350
−1320
4.8+1.7
−1.7
35.7+6.5
−4.7
0.36+0.21
−0.25
BH
50.6+16.6
−10.2
BH
34.3+9.1
−10.1
BH
80.3+14.6
−10.2
0.81+0.07
−0.13
Largest progenitor masses until GW190521 [12]
GW170809
08:28:21
2018-11-30
340; towards Cetus
12.4+0.0
−0.2
990+320
−380
2.7+0.6
−0.6
25.0+2.1
−1.6
0.07+0.16
−0.16
BH
35.2+8.3
−6.0
BH
23.8+5.2
−5.1
BH
56.4+5.2
−3.7
0.70+0.08
−0.09
[12]
GW170814
10:30:43
2017-09-27
87; towards Eridanus
16.3+0.9
−0.4
580+160
−210
2.7+0.4
−0.3
24.2+1.4
−1.1
0.07+0.12
−0.11
BH
30.7+5.7
−3.0
BH
25.3+2.9
−4.1
BH
53.4+3.2
−2.4
0.72+0.07
−0.05
First announced detection by
three observatories; first polarization measurement
[25][26]
GW170817
12:41:04
2017-10-16
33.0+0.0
−2.1
40±10
≥ 0.04
1.186+0.001
−0.001
0.00+0.02
−0.01
NS
1.46+0.12
−0.10
NS
1.27+0.09
−0.09
HMNS-BH
[n 10]
≤ 2.8[n 11]
≤ 0.89
First NS merger observed in
GW; first detection of EM counterpart (GRB 170817A; AT 2017gfo); nearest event to date
[16][30][31]
GW170818
02:25:09
2018-11-30
39; towards Pegasus
11.3+0.0
−0.0
1020+430
−360
2.7+0.5
−0.5
26.7+2.1
−1.7
−0.09+0.18
−0.21
BH
35.5+7.5
−4.7
BH
26.8+4.3
−5.2
BH
59.8+4.8
−3.8
0.67+0.07
−0.08
[12]
GW170823
13:13:58
2018-11-30
1651
11.1+0.4
−0.3
1850±840
3.3+0.9
−0.8
29.3+4.2
−3.2
0.08+0.20
−0.22
BH
39.6+10.0
−6.6
BH
29.4+6.3
−7.1
BH
65.6+9.4
−6.6
0.71+0.08
−0.10
[12]
GW190403_051519
2019-04-03 05:15:19
2022-05-11
3900
7.6+0.6
−1.1
8300+6700
−4300
34.0+15.1
−8.4
0.68+0.16
−0.43
BH
85.0+6.7
−4.3
BH
20.0+26.3
−8.4
BH
102+26
−24
0.91+0.05
−0.17
[32]
GW190408_181802
2019-04-08 18:18:02
2020-10-27
140
15.3+0.2
−0.3
1580+400
−590
18.3+1.4
−1.2
−0.03+0.13
−0.19
BH
24.5+5.1
−3.4
BH
18.3+3.2
−3.5
BH
41.0+3.8
−2.7
0.67+0.06
−0.07
Originally designated S190408an. [33]
GW190412
2019-04-12
05:30:44
2020-04-17
156; towards Virgo or Boötes
18.9+0.2
−0.3
730+140
−170
13.3+0.4
−0.3
0.25+0.08
−0.11
BH
29.7+5.0
−5.3
BH
8.4+1.8
−1.0
BH
37.0+4.1
−3.9
0.67+0.05
−0.07
First possible observation of a merger of two black holes of very different masses. Originally designated S190412m. [34][35]
GW190413_052954
2019-04-13
2020-10-27
1400
8.9+0.4
−0.7
4100+2410
−1890
24.0+5.4
−3.7
0.01+0.29
−0.33
BH
33.4+12.4
−7.4
BH
23.4+6.7
−6.3
BH
54.3+12.4
−8.4
0.69+0.12
−0.13
[33]
GW190413_134308
2019-04-13
2020-10-27
520
10.0+0.4
−0.5
5150+2440
−2340
31.9+7.3
−4.6
−0.01+0.24
−0.28
BH
45.4+13.6
−9.6
BH
30.9+10.2
−9.6
BH
72.8+15.2
−10.3
0.69+0.10
−0.12
[33]
GW190421_213856
2019-04-21
2020-10-27
1000
10.7+0.2
−0.4
3150+1370
−1420
30.7+5.5
−6.6
−0.05+0.23
−0.26
BH
40.6+10.4
−6.6
BH
31.4+7.5
−8.2
BH
68.6+11.7
−8.1
0.68+0.10
−0.11
Originally designated S190421ar. [33]
GW190424_180648
2019-04-24 18:06:48
2020-10-27
26000
10.4+0.2
−0.4
2550+1560
−1330
30.3+5.7
−4.2
0.15+0.22
−0.22
BH
39.5+10.9
−6.9
BH
31.0+7.4
−7.3
BH
67.1+12.5
−9.2
0.75+0.08
−0.09
[33]
GW190425
2019-04-25
08:18:05
2020-01-06
430; towards Hercules[36]
12.4+0.3
−0.4
159+69
−72
1.44+0.02
−0.02
0.012+0.01
−0.01
NS
1.60 - 1.87
NS
1.46 - 1.69
?
Originally designated S190425z (z:26th trigger|UTC day), this trigger was detected by a single LIGO instrument (of three LVC stations), and is considered by some scientists to have been confirmed as a binary neutron star merger.[37]

It was published in 2020 that a gamma-ray burst was detected (GRB 190425) ~0.5 seconds after the LIGO trigger, lasting 6 seconds and bearing similarities to GRB170817 (such as weakness [most power in sub-100 keV, or soft X-rays) bands], elevated energetic photon background levels [signal exceeding background by less than a factor of 2], and similar differences from other transients classified as short GRBs). Confidence was established for interpretation of a set of peaks through a control interval of only 2 days prior to the LIGO-Livingston trigger in INTEGRAL Electronic anticoincidence, could not be corroborated by other instruments and wasn't initially noted as a significant event. Non-detection in other instruments may be a consequence of an Earth-occulted source as the Fermi telescope attempted follow-up.[36]

[38][39]
GW190426_152155
2019-04-26
15:21:55
2020-10-27
1300
8.7+0.5
−0.6
370+180
−160
2.41+0.08
−0.08
−0.03+0.32
−0.30
BH?
5.7+3.9
−2.3
NS
1.5+0.8
−0.5
BH?
The primary object, being between 3.4 and 9.6 solar masses, is either a black hole or an object in the mass gap. Originally designated S230426c. [33]
GW190426_190642
2019-04-26
19:06:42
2022-05-11
4600
8.7+0.4
−0.6
4600+3400
−2300
76.0+19.1
−17.4
0.23+0.42
−0.41
BH
106+45
−24
BH
76+26
−36
BH
173+38
−34
0.77+0.14
−0.16
[32]
GW190503_185404
2019-05-03
18:54:04
2020-10-27
94; towards Columba, Pictor, or Puppis
12.4+0.2
−0.3
1450+690
−630
30.2+4.2
−4.2
−0.03+0.20
−0.26
BH
43.3+9.1
−8.2
BH
28.4+7.7
−8.0
BH
68.6+8.8
−7.7
0.66+0.09
−0.12
Originally designated S230503bf. [33]
GW190512_180714
2019-05-12
18:07:14
2020-10-27
220; towards Scorpius or Ophiuchus
12.2+0.2
−0.4
1430+550
−550
14.6+1.3
−1.0
0.03+0.12
−0.13
BH
23.3+5.3
−3.8
BH
12.6+3.6
−2.5
BH
34.5+3.8
−3.5
0.65+0.07
−0.07
Originally designated S230512at. [33]
GW190513_205428
2019-05-13
20:54:28
2020-10-27
12.9+0.3
−0.4
2060+880
−800
21.6+3.8
−1.9
0.11+0.28
−0.17
BH
35.7+9.5
−9.2
BH
18.0+7.7
−4.2
BH
51.6+8.2
−5.8
0.68+0.14
−0.12
Originally designated S230513bm. [33]
GW190514_065416
2019-05-14
06:54:16
2020-10-27
3000
8.2+0.3
−0.6
4100+2700
−2200
28.5+7.9
−4.8
−0.19+0.29
−0.32
BH
39.0+14.7
−8.2
BH
28.4+9.3
−8.8
BH
65+18
−10
0.63+0.11
−0.15
[33]
GW190517_055101
2019-05-17
06:54:16
2020-10-27
470
10.7+0.4
−0.6
1860+1620
−840
26.6+4.0
−4.0
0.52+0.19
−0.19
BH
37.4+11.7
−7.6
BH
25.3+7.0
−7.3
BH
59.3+9.1
−8.9
0.87+0.05
−0.07
Originally designated S190517h. [33]
GW190519_153544
2019-05-19
15:35:44
2020-10-27
860
15.6+0.2
−0.3
2530+1830
−920
44.5+6.4
−7.1
0.31+0.20
−0.22
BH
66+11
−12
BH
41+11
−11
BH
101+12
−14
0.79+0.07
−0.13
Originally designated S190519bj. [33]
GW190521
2019-05-21
03:02:29
2020-09-02
14.2+0.3
−0.3
5300+2400
−2600
7.6+2.2
−1.9
64+13
−8
0.08+0.27
−0.36
BH
85+21
−14
BH
66+17
−18
BH
142+28
−16
0.72+0.09
−0.12
Originally designated S190521g. Largest progenitor masses to date. [40][41]
GW190521_074359
2019-05-21
07:43:59
2020-10-27
550
25.8+0.1
−0.2
1240+400
−570
32.1+3.2
−2.5
0.09+0.10
−0.13
BH
42.2+5.9
−4.8
BH
32.8+5.4
−6.4
BH
71.0+6.5
−4.4
0.72+0.05
−0.07
Originally designated S190521r. [33]
GW190527_092055
2019-05-27
09:20:55
2020-10-27
3700
8.1+0.3
−0.9
2500+2500
−1200
24.3+9.2
−4.1
0.11+0.28
−0.28
BH
36.5+16.4
−9.0
BH
22.6+10.5
−8.1
BH
56.4+20.2
−9.3
0.71+0.12
−0.16
[33]
GW190602_175927
2019-06-02
17:59:27
2020-10-27
690
12.8+0.2
−0.3
2700+1800
−1100
49.1+9.1
−8.5
0.07+0.25
−0.24
BH
69+16
−13
BH
48+14
−17
BH
111+18
−15
0.70+0.10
−0.14
Originally designated S190602aq. [33]
GW190620_030421
2019-06-20
03:04:21
2020-10-27
7200
12.1+0.3
−0.4
2800+1700
−1300
38.3+8.3
−6.5
0.33+0.22
−0.25
BH
57+16
−13
BH
36+12
−12
BH
87+17
−12
0.79+0.08
−0.15
[33]
GW190630_185205
2019-06-30
18:52:05
2020-10-27
1200
15.6+0.2
−0.3
890+560
−370
24.9+2.1
−2.1
0.10+0.12
−0.13
BH
35.1+6.9
−5.6
BH
23.7+5.2
−5.1
BH
56.4+4.4
−4.6
0.70+0.05
−0.07
Originally designated S190630ag. [33]
GW190701_203306
2019-07-01
20:33:06
2020-10-27
46; towards Eridanus or Cetus
11.3+0.2
−0.3
2060+760
−730
40.3+5.4
−4.9
−0.07+0.23
−0.29
BH
53.9+11.8
−8.0
BH
40.8+8.7
−12.0
BH
90.2+11.3
−8.9
0.66+0.09
−0.13
Originally designated S190701ah. [33]
GW190706_222641
2019-07-06
22:26:41
2020-10-27
650
12.6+0.2
−0.4
4400+2600
−1900
42.7+10.0
−7.0
0.28+0.26
−0.29
BH
67+15
−16
BH
38+15
−13
BH
99+18
−14
0.78+0.09
−0.18
Originally designated S190706ai. [33]
GW190707_093326
2019-07-07
09:33:26
2020-10-27
1300
13.3+0.2
−0.4
770+380
−270
8.5+0.7
−0.6
−0.05+0.10
−0.08
BH
11.6+3.3
−1.7
BH
8.4+1.4
−1.7
BH
19.2+1.9
−1.3
0.66+0.03
−0.04
Originally designated S190707q. [33]
GW190708_232457
2019-07-08
23:24:57
2020-10-27
14000
13.1+0.2
−0.3
880+330
−390
13.2+0.9
−0.6
0.02+0.08
−0.10
BH
17.6+4.7
−2.3
BH
13.2+2.0
−2.7
BH
29.5+2.5
−1.8
0.69+0.04
−0.04
[33]
GW190719_215514
2019-07-09
21:55:14
2020-10-27
2900
8.3+0.3
−0.8
3900+2600
−2000
23.5+6.5
−4.0
0.32+0.29
−0.31
BH
37+18
−10
BH
20.8+9.0
−7.2
BH
55+17
−10
0.78+0.11
−0.17
[33]
GW190720_000836
2019-07-20
00:08:36
2020-10-27
460; mostly towards Cygnus
11.0+0.3
−0.7
790+690
−320
8.9+0.5
−0.8
0.18+0.14
−0.12
BH
13.4+6.7
−3.0
BH
7.8+2.3
−2.2
BH
20.4+4.5
−2.2
0.72+0.06
−0.05
Originally designated S190720a. [33]
GW190725_174728
2019-07-25
17:47:28
2022-05-11
2200
9.1+0.4
−0.7
1030+520
−430
7.4±0.5
−0.04+0.36
−0.16
BH
11.8+10.1
−3.0
BH?
6.3+2.1
−2.5
BH
17.6+7.7
−1.8
0.65+0.09
−0.07
[32]
GW190727_060333
2019-07-27
06:03:33
2020-10-27
830
11.9+0.3
−0.5
790+690
−320
28.6+5.3
−3.7
0.11+0.26
−0.25
BH
38.0+9.5
−6.2
BH
29.4+7.1
−8.4
BH
63.8+10.9
−7.5
0.73+0.10
−0.10
Originally designated S190727h. [33]
GW190728_064510
2019-07-28
06:45:10
2020-10-27
400
13.0+0.2
−0.4
870+260
−370
8.6+0.5
−0.3
0.12+0.20
−0.07
BH
12.3+7.2
−2.2
BH
8.1+1.7
−2.6
BH
19.6+4.7
−1.3
0.71+0.04
−0.04
Originally designated S190728q. [33]
GW190731_140936
2019-07-31
14:09:36
2020-10-27
3400
8.7+0.2
−0.5
3300+2400
−1700
29.5+7.1
−5.2
0.06+0.24
−0.24
BH
41.5+12.2
−9.0
BH
28.8+9.7
−9.5
BH
67+15
−11
0.70+0.10
−0.13
[33]
GW190803_022701
2019-08-03
02:27:01
2020-10-27
1500
8.6+0.3
−0.5
3300+2000
−1600
27.3+5.7
−4.1
−0.03+0.24
−0.27
BH
37.3+10.6
−7.0
BH
27.3+7.8
−8.2
BH
61.7+11.8
−8.5
0.68+0.10
−0.11
[33]
GW190805_211137
2019-08-05
21:11:37
2022-05-11
1600
8.1+0.5
−0.7
6100+3700
−3100
31.9+8.8
−6.3
0.37+0.29
−0.39
BH
46+15
−11
BH
31+12
−11
BH
72+18
−13
0.82+0.09
−0.16
[32]
GW190814 2019-08-14 21:11:18 2020-06-23
18.5; towards Cetus or Sculptor[citation needed]
24.9+0.1
−0.2
241+41
−45
6.09+0.06
−0.06
−0.002+0.06
−0.061
BH
23.2+1.1
−1.0
MG
2.59+0.08
−0.09
BH
25.6+1.1
−0.9
0.28+0.02
−0.02
No optical counterpart was discovered despite an extensive search of the probability region. The mass of the lighter component is estimated to be 2.6 times the mass of the Sun, placing it in the mass gap between neutron stars and black holes.[42] [43][44][45][46][47]
[48][49][50][51]
GW190828_063405
2019-08-28
06:34:05
2020-10-27
520
16.2+0.2
−0.3
2130+660
−930
25.0+3.4
−2.1
0.19+0.15
−0.16
BH
32.1+5.8
−4.0
BH
26.2+4.6
−4.8
BH
54.9+7.2
−4.3
0.75+0.06
−0.07
Originally designated S190828j. [33]
GW190828_065509
2019-08-28
06:55:09
2020-10-27
660
10.0+0.3
−0.5
1600+620
−600
13.3+1.2
−1.0
0.08+0.16
−0.16
BH
24.1+7.0
−7.2
BH
10.2+3.6
−2.1
BH
33.1+5.5
−4.5
0.65+0.08
−0.08
Originally designated S190828l. [33]
GW190909_114149
2019-09-09
11:41:49
2020-10-27
4700
8.1+0.4
−0.6
3800+3300
−2200
30.9+17.2
−7.5
−0.06+0.37
−0.37
BH
46+53
−13
BH
28+13
−13
BH
72+55
−17
0.66+0.15
−0.20
[33]
GW190910_112807
2019-09-10
11:28:07
2020-10-27
11000
14.1+0.2
−0.3
1460+1030
−580
34.3+4.1
−4.1
0.02+0.18
−0.18
BH
43.9+7.6
−6.1
BH
35.6+6.3
−7.2
BH
75.8+8.5
−8.6
0.70+0.08
−0.07
[33]
GW190915_235702
2019-09-15
23:57:02
2020-10-27
13.6+0.2
−0.3
1620+710
−610
25.3+3.2
−2.7
0.02+0.20
−0.25
BH
35.3+9.5
−6.4
BH
24.4+5.6
−6.1
BH
57.2+7.1
−6.0
0.70+0.09
−0.11
Originally designated S230915ak. [33]
GW190916_200658
2019-09-16
20:06:58
2022-05-11
2400
8.1+0.3
−0.5
4900+3700
−2400
26.9+8.2
−5.4
0.20+0.33
−0.31
BH
44+20
−13
BH
23+13
−11
BH
65+17
−13
0.74+0.13
−0.24
[32]
GW190917_114630
2019-09-17
11:46:30
2022-05-11
1700
8.3+0.5
−0.8
720+300
−310
3.7±0.2
−0.08+0.21
−0.43
BH
9.7+3.4
−3.9
MG?
2.1+1.1
−0.4
BH
11.6+3.1
−2.9
0.42+0.14
−0.05
[32]
GW190924_021846
2019-09-24
02:18:46
2020-10-27
360; towards Hydra or Cancer
11.5+0.3
−0.4
570+220
−220
5.8+0.2
−0.2
0.03+0.30
−0.09
BH
8.9+7.0
−2.0
BH?
5.0+1.4
−1.9
BH
13.3+5.2
−1.0
0.67+0.05
−0.05
The secondary component, being between 3.1 and 6.4 solar masses, is either a black hole or an object in the mass gap. Originally designated S230924h. [33]
GW190925_232845
2019-09-25
23:28:45
2022-05-11
2900
9.7+0.3
−0.6
930+460
−350
15.6±1.1
0.09+0.16
−0.15
BH
20.8+6.5
−2.9
BH
15.5+2.5
−3.6
BH
34.9+3.5
−2.6
0.71±0.06
[32]
GW190926_050336
2019-09-26
05:03:36
2022-05-11
2000
8.1+0.6
−0.8
3300+3400
−1700
24.4+9.0
−4.9
−0.02+0.25
−0.32
BH
41+21
−13
BH
20.4+11.4
−8.2
BH
60+22
−12
0.64+0.14
−0.20
[32]
GW190929_012149
2019-09-29
01:21:49
2020-10-27
2200
10.1+0.6
−0.8
2100+3700
−1100
35.8+14.9
−8.2
0.01+0.34
−0.33
BH
81+33
−33
BH
24+19
−11
BH
102+34
−25
0.66+0.20
−0.31
[33]
GW190930_133541
2019-09-30
13:35:41
2020-10-27
1700
9.5+0.3
−0.5
760+360
−320
8.5+0.5
−0.5
0.14+0.31
−0.15
BH
12.3+12.4
−2.3
BH?
7.8+1.7
−3.3
BH
19.4+9.2
−1.5
0.72+0.07
−0.06
The secondary component, being between 4.5 and 9.5 solar masses, is either a black hole or an object in the mass gap. Originally designated S190930s. [33]
GW191103
2019-11-03 01:25:49
2021-11-17
2500
8.9+0.3
−0.5
990+500
−470
8.34+0.66
−0.57
0.21+0.16
−0.10
BH
11.8+6.2
−2.2
BH
7.9+1.7
−2.4
BH
19.0+3.8
−1.7
0.75+0.06
−0.05
[52]
GW191105
2019-11-05 14:35:21
2021-11-17
640
9.7+0.3
−0.5
1150+430
−480
7.82+0.61
−0.45
−0.02+0.13
−0.09
BH
10.7+3.7
−1.6
BH
7.7+1.4
−1.9
BH
17.6+2.1
−1.2
0.67+0.04
−0.05
Originally designated S191105e. [52]
GW191109
2019-11-09 01:07:17
2021-11-17
1600
17.3+0.5
−0.5
1290+1130
−650
47.5+9.6
−7.5
−0.29+0.42
−0.31
BH
65+11
−11
BH
47+15
−13
BH
107+18
−15
0.61+0.18
−0.19
Originally designated S191109d. [52]
GW191113
2019-11-13 07:17:53
2021-11-17
3600
7.9+0.5
−1.1
1290+1130
−650
10.7+1.1
−1.0
0.00+0.37
−0.29
BH
29+12
−14
BH
5.9+4.4
−1.3
BH
34+11
−10
0.45+0.33
−0.11
[52]
GW191126
2019-11-26 11:52:59
2021-11-17
1400
8.3+0.2
−0.5
1620+740
−740
8.65+0.95
−0.71
0.21+0.15
−0.11
BH
12.1+5.5
−2.2
BH
8.3+1.9
−2.4
BH
19.6+3.5
−2.0
0.75+0.06
−0.05
[52]
GW191127
2019-11-27 05:02:27
2021-11-17
980
9.2+0.7
−0.6
3400+3100
−1900
29.9+11.7
−9.1
0.18+0.34
−0.36
BH
53+47
−20
BH
24+17
−14
BH
76+31
−29
0.75+0.13
−0.29
[52]
GW191129
2019-11-29 13:40:29
2021-11-17
850
13.1+0.2
−0.3
790+260
−330
7.31+0.43
−0.28
0.06+0.18
−0.06
BH
10.7+4.1
−2.1
BH
6.7+1.5
−1.7
BH
16.8+2.5
−1.2
0.69+0.03
−0.05
Originally designated S191129u. [52]
GW191204_110529
2019-12-04 11:05:29
2021-11-17
3700
8.8+0.4
−0.6
1800+1700
−1100
19.8+3.6
−3.3
0.05+0.26
−0.27
BH
27.3+11.0
−6.0
BH
19.3+5.6
−6.0
BH
45.0+8.6
−7.6
0.71+0.12
−0.11
[52]
GW191204_171526
2019-12-04 17:15:26
2021-11-17
350; towards Pictor, Caelum, or Eridanus
17.5+0.2
−0.2
650+190
−250
8.55+0.38
−0.27
0.16+0.08
−0.05
BH
11.9+3.3
−1.8
BH
8.2+1.4
−1.6
BH
19.21+1.79
−0.95
0.73+0.03
−0.03
Originally designated S191204r. [52]
GW191215
2019-12-15 22:30:52
2021-11-17
530
11.2+0.3
−0.4
1930+890
−860
18.4+2.2
−1.7
−0.04+0.17
−0.21
BH
24.9+7.1
−4.1
BH
18.1+3.8
−4.1
BH
41.4+5.1
−4.1
0.68+0.07
−0.07
Originally designated S191215w. [52]
GW191216
2019-12-16 21:33:38
2021-11-17
490
18.6+0.2
−0.2
340+120
−130
8.33+0.22
−0.19
0.11+0.13
−0.06
BH
12.1+4.6
−2.3
BH
7.7+1.6
−1.9
BH
18.87+2.80
−0.94
0.70+0.03
−0.04
Originally designated S191216ap. [52]
GW191219
2019-12-19 16:31:20
2021-11-17
1500
9.1+0.5
−0.8
550+250
−160
4.32+0.12
−0.17
0.00+0.07
−0.09
BH
31.1+2.2
−2.8
NS
1.17+0.07
−0.06
BH
32.2+2.2
−2.7
0.14+0.06
−0.06
The event is unconfirmed due to difficulty accurately modelling the extreme mass ratio. [52]
GW191222
2019-12-22 03:35:37
2021-11-17
2000
12.5+0.2
−0.3
3000+1700
−1700
33.8+7.1
−5.0
−0.04+0.20
−0.25
BH
45.1+10.9
−8.0
BH
34.7+9.3
−10.5
BH
75.5+15.3
−9.9
0.67+0.08
−0.11
Originally designated S191222n. [52]
GW191230
2019-12-30 18:04:58
2021-11-17
1100
10.4+0.3
−0.4
4300+2100
−1900
36.5+8.2
−5.6
−0.05+0.26
−0.31
BH
49.4+14.0
−9.6
BH
37+11
−12
BH
82+17
−11
0.68+0.11
−0.13
[52]
GW200105
2020-01-05 16:24:26
2021-06-29
7200
13.7+0.2
−0.4
280±110
3.41+0.08
−0.07
−0.01+0.11
−0.15
BH
8.9+1.2
−1.5
NS
1.9+0.3
−0.2
BH
10.4+2.7
−2.0
0.43+0.04
−0.03
First event confirmed to be a black hole and neutron star merger. Originally designated S200105ae. [53][54]
GW200112
2020-01-12 15:58:38
2021-11-17
4300
19.8+0.1
−0.2
1250+430
−460
27.4+2.6
−2.1
0.06+0.15
−0.15
BH
35.6+6.7
−4.5
BH
28.3+4.4
−5.9
BH
60.8+5.3
−4.3
0.71+0.06
−0.06
Originally designated S200112r. [52]
GW200114
2020-01-14 02:08:08
2022-08-18
403; towards Gemini, Orion, or Eridanus
1250+1500
−400
68+6
−4
−0.75+0.50
−0.15
BH
78+10
−10
BH
70+10
−10
BH
140+15
−15
Originally designated S200114f. The event was initially published as an unmodeled gravitational wave burst, and different studies have offered conflicting interpretations. One study suggested it was a nearby high-mass black hole merger with component masses of 118+10
−12
and 89+18
−8
Msun which was poorly modeled because of its high mass.[55] Another study interpreted it as a somewhat smaller black hole merger taking place at the same time as a detector glitch.[56] Both studies conclude the signal is most likely a real event, and the latter model is included in the table.
[55][56]
GW200115
2020-01-15 04:23:09
2021-06-29
600
11.3+0.3
−0.5
300+150
−100
2.42+0.05
−0.07
−0.19+0.23
−0.35
BH
5.7+1.8
−2.1
NS
1.5+0.7
−0.3
BH
7.8+1.4
−1.6
0.38+0.04
−0.03
Second event confirmed to be a black hole and neutron star merger. Originally designated S200115j. [53][57]
GW200128
2020-01-28 02:20:11
2021-11-17
2600
10.6+0.3
−0.4
3400+2100
−1800
32.0+7.5
−5.5
0.12+0.24
−0.25
BH
42.2+11.6
−8.1
BH
32.6+9.5
−9.2
BH
71+16
−11
0.74+0.10
−0.10
Originally designated S200128d. [52]
GW200129
2020-01-29 06:54:58
2021-11-17
130; towards Equuleus, Delphinus, or Vulpecula
26.8+0.2
−0.2
900+290
−380
27.2+2.1
−2.3
0.11+0.11
−0.16
BH
34.5+9.9
−3.2
BH
28.9+3.4
−9.3
BH
60.3+4.0
−3.3
0.73+0.06
−0.05
Originally designated S200129m. [52]
GW200202
2020-02-02 15:43:12
2021-11-17
170
10.8+0.2
−0.4
410+150
−160
7.49+0.24
−0.20
0.04+0.13
−0.06
BH
10.1+3.5
−1.4
BH
7.3+1.1
−1.7
BH
16.76+1.87
−0.66
0.69+0.03
−0.04
[52]
GW200208_130117
2020-02-08 13:01:17
2021-11-17
30; towards Pyxis or Antlia
10.8+0.3
−0.4
2230+1000
−850
27.7+3.6
−3.1
−0.07+0.22
−0.27
BH
37.8+9.2
−8.2
BH
27.5+6.1
−7.4
BH
62.5+7.3
−6.4
0.66+0.09
−0.13
Originally designated S200208q. [52]
GW200208_222617
2020-02-08 22:26:17
2021-11-17
2000
7.4+1.4
−1.2
4100+4400
−1900
19.6+10.7
−5.1
0.45+0.43
−0.44
BH
51+104
−30
BH
12.3+9.0
−5.7
BH
61+100
−25
0.83+0.14
−0.27
[52]
GW200209
2020-02-09 08:54:52
2021-11-17
730
9.6+0.4
−0.5
3400+1900
−1800
26.7+6.0
−4.2
−0.12+0.24
−0.30
BH
35.6+10.5
−6.8
BH
27.1+7.8
−7.8
BH
59.9+13.1
−8.9
0.66+0.10
−0.12
[52]
GW200210
2020-02-10 09:22:54
2021-11-17
1800
8.4+0.5
−0.7
940+430
−340
6.56+0.38
−0.40
0.02+0.22
−0.21
BH
24.1+7.5
−4.6
MG
2.83+0.47
−0.42
BH
26.7+7.2
−4.3
0.34+0.13
−0.08
The secondary component, being between 2.41 and 3.30 solar masses, is an object in the mass gap. [52]
GW200216
2020-02-16 22:08:04
2021-11-17
2900
8.1+0.4
−0.5
3800+3000
−2000
32.9+9.3
−8.5
0.10+0.34
−0.36
BH
51+22
−13
BH
30+14
−16
BH
78+19
−13
0.70+0.14
−0.24
[52]
GW200219
2020-02-19 09:44:15
2021-11-17
700
10.7+0.3
−0.5
3400+1700
−1500
27.6+5.6
−3.8
−0.08+0.23
−0.29
BH
37.5+10.1
−6.9
BH
27.9+7.4
−8.4
BH
62.2+11.7
−7.8
0.66+0.10
−0.13
Originally designated S200219ac. [52]
GW200220_061928
2020-02-20 06:19:28
2021-11-17
3000
7.2+0.4
−0.7
6000+4800
−3100
62+23
−15
0.06+0.40
−0.38
BH
87+40
−23
BH
61+26
−25
BH
141+51
−31
0.71+0.15
−0.17
[52]
GW200220_124850
2020-02-20 12:48:50
2021-11-17
3200
8.5+0.3
−0.5
4000+2800
−2200
28.2+7.3
−5.1
−0.07+0.27
−0.33
BH
38.9+14.1
−8.6
BH
27.9+9.2
−9.0
BH
64+16
−11
0.67+0.11
−0.14
[52]
GW200224
2020-02-24 22:22:34
2021-11-17
50; towards Virgo or Crater
20.0+0.2
−0.2
1710+490
−640
31.1+3.2
−2.6
0.10+0.15
−0.15
BH
40.0+6.9
−4.5
BH
32.5+5.0
−7.2
BH
68.6+6.6
−4.7
0.73+0.07
−0.07
Originally designated S200224ca. [52]
GW200225
2020-02-25 06:04:21
2021-11-17
370; towards Ursa Minor or Cepheus
12.5+0.3
−0.4
1150+510
−530
14.2+1.5
−1.4
−0.12+0.17
−0.28
BH
19.3+5.0
−3.0
BH
14.0+2.8
−3.5
BH
32.1+3.5
−2.8
0.66+0.07
−0.13
Originally designated S200225q. [52]
GW200302
2020-03-02 01:58:11
2021-11-17
6000
10.8+0.3
−0.4
1480+1020
−700
23.4+4.7
−3.0
0.01+0.25
−0.26
BH
37.8+8.7
−8.5
BH
20.0+8.1
−5.7
BH
55.5+8.9
−8.6
0.66+0.13
−0.15
Originally designated S200302c. [52]
GW200306
2020-03-06 09:37:14
2021-11-17
4600
7.8+0.4
−0.6
2100+1700
−1100
17.5+3.5
−3.0
0.32+0.28
−0.46
BH
28.3+17.1
−7.7
BH
14.8+6.5
−6.4
BH
41.7+12.3
−6.9
0.78+0.11
−0.26
[52]
GW200308
2020-03-08 17:36:09
2021-11-17
2000
7.1+0.5
−0.5
5400+2700
−2600
19.0+4.8
−2.8
0.65+0.21
−0.17
BH
36.4+11.2
−9.6
BH
13.8+7.2
−3.3
BH
47.4+11.1
−7.7
0.91+0.03
−0.08
[52]
GW200311
2020-03-11 11:58:53
2021-11-17
35; towards Cetus
17.8+0.2
−0.2
1170+280
−400
26.6+2.4
−2.0
−0.02+0.16
−0.20
BH
34.2+6.4
−3.8
BH
27.7+4.1
−5.9
BH
59.0+4.8
−3.9
0.69+0.07
−0.08
Originally designated S200311bg. [52]
GW200316
2020-03-16 21:57:56
2021-11-17
190
10.3+0.4
−0.7
1120+470
−440
8.75+0.62
−0.55
0.13+0.27
−0.10
BH
13.1+10.2
−2.9
BH
7.8+1.9
−2.9
BH
20.2+7.4
−1.9
0.70+0.04
−0.04
Originally designated S200316bj. [52]
GW200322
2020-03-22 09:11:33
2021-11-17
6500
6.0+1.7
−1.2
3600+7000
−2000
15.5+15.7
−3.7
0.24+0.45
−0.51
BH
34+48
−18
BH
14.0+16.8
−8.7
BH
53+38
−26
0.78+0.16
−0.17
[52]
GW230529

2023-05-29 18:15:00

2024-04-05
25600
11.4+0.2
−0.1
201+102
−96
1.94+0.04
−0.04
−0.1+0.12
−0.17
MG
3.6+0.8
−1.2
NS
1.4+0.6
−0.2
?
Originally designated S230529ay. Was detected using only the LIGO Livingston detector. It provides strong support for the primary object to be within the mass gap. [58]
 
Gravitational Wave Transient Catalog 1. Credit:LIGO Scientific Collaboration and Virgo Collaboration/Georgia Tech/S. Ghonge & K. Jani

Candidate events and marginal detections

edit

There is possible detection of nanohertz waves by observation of the timing of pulsars, but they have not been confirmed at the 5 sigma level of confidence, as of 2023.[59]

Marginal detections from O1 and O2

edit

In addition to well-constrained detections listed above, a number of low-significance detections of possible signals were made by LIGO and Virgo. Their characteristics are listed below, only including detections with a <50% chance of being noise:

Marginal event detections
Candidate
event
Detection
time (UTC)
Date
published
Luminosity
distance

(Mpc)[n 12]
Detector
[n 13]
False alarm
rate (year)
Effective spin Primary Secondary Probability of terrestrial noise Notes Ref
Type Mass (M) Type Mass (M)
151205 2015-12-05 19:55:25 2019-10-11 3000+2400
−1600
H,L 0.61 0.14+0.40
−0.38
BH
67+28
−17
BH
42+16
−19
0.47 [60]
170121 2017-01-21 21:25:36 2019-04-15 H,L −0.3±0.3
BH
29+4
−3
BH
<0.01 [61]
170304 2017-03-04 16:37:53 2019-10-11 2300+1600
−1200
H,L 2.5 0.11+0.29
−0.27
BH
44.9+17.6
−9.4
BH
31.8+9.5
−11.6
0.30 [60]
170402 2017-04-02 21:51:50 2019-10-21 H,L 0.32 [62]
170727 2017-07-27 01:04:30 2019-10-11 2200+1500
−1100
H,L 180 −0.05+0.25
−0.30
BH
41.6+12.8
−7.9
BH
30.4+7.9
−8.2
0.006 [60]
170817A 2017-08-17 03:02:46 2019-10-21 H,L,V 11.5 0.5±0.2
BH
56+16
−10
BH
40+10
−11
0.14 [62]

Observation candidates from O3/2019

edit

From observation run O3/2019 on, observations are published as Open Public Alerts to facilitate multi-messenger observations of events.[63][64][65] Candidate event records can be directly accessed at the Gravitational-Wave Candidate Event Database (GraceDB).[66] On 1 April 2019, the start of the third observation run was announced with a circular published in the public alerts tracker.[67] The first O3/2019 binary black hole detection alert was broadcast on 8 April 2019. A significant percentage of O3 candidate events detected by LIGO are accompanied by corresponding triggers at Virgo.

False alarm rates are mixed, with more than half of events assigned false alarm rates greater than 1 per 20 years, contingent on presence of glitches around signal, foreground electromagnetic instability, seismic activity, and operational status of any one of the three LIGO-Virgo instruments. For instance, events S190421ar and S190425z weren't detected by Virgo and LIGO's Hanford site, respectively.

The LIGO/Virgo collaboration took a short break from observing during the month of October 2019 to improve performance and prepare for future plans, with no signals detected in that month as a result.[68]

The Kamioka Gravitational Wave Detector (KAGRA) in Japan became operational on 25 February 2020,[69] likely improving the detection and localization of future gravitational wave signals.[70] However, KAGRA does not report their signals in real-time on GraceDB as LIGO and Virgo do, so the results of their observation run will likely not be published until the end of O3.

The LIGO-Virgo collaboration ended the O3 run early on March 27, 2020, due to health concerns from the COVID-19 pandemic.[5][71]

Candidate detections from O3 by month
1
2
3
4
5
6
7
8
9
10
19/04
19/05
19/06
19/07
19/08
19/09
19/10
19/11
19/12
20/01
20/02
20/03
  •   BNS mergers
  •   NS-BH mergers
  •   mass gap
  •   BBH mergers
  •   terrestrial noise
  •   false positives
  •   unidentified
O3 detections by distance
2
4
6
8
10
12
14
16
18
20
<100 Mpc
100-200 Mpc
200-500 Mpc
500-1000 Mpc
1-2 Gpc
2-5 Gpc
5+ Gpc
  •   BNS mergers
  •   NS-BH mergers
  •   mass gap
  •   BBH mergers
List of unconfirmed O3 event alerts[11][12]
GW event Detection
time (UTC)
Location
area[n 14]
(deg2)
Luminosity
distance

(Mpc)[n 15]
Detector
[n 16]
False alarm
Rate (Hz)
False alarm
chance in O3[n 17]
Classification Notes Ref
NS / NS
[n 18]
NS / BH
[n 19]
BH / BH
[n 20]
Mass gap
[n 21]
Terrestrial
[n 22]
S190901ap 2019-09-01
23:31:01
14753
241±79
L,V 7.0 10−9 0.181 0.861 0.0 0.0 0.0 0.139 [72]
S190910d 2019-09-10
01:26:19
2482
632±186
H,L 3.7 10−9 0.100 0.0 0.976 0.0 0.0 0.024 [73]
S190910h 2019-09-10
08:29:58
24264
230±88
L 3.6 10−8 0.642 0.612 0.0 0.0 0.0 0.388 Detected by only the Livingston detector, resulting in a bad sky localization. [74]
S190923y 2019-09-23 12:55:59
2107
438±133
H,L 4.8 10−8 0.746 0.0 0.677 0.0 0.0 0.322 [75]
S190930t 2019-09-30 14:34:07
24220
108±38
L 1.5 10−8 0.348 0.0 0.743 0.0 0.0 0.257 Detected by only the Livingston detector, resulting in a bad sky localization; last detection of the O3a run. [76]
S191205ah 2019-12-05 21:52:08
6378
385±164
H,L,V 1.2 10−8 0.290 0.0 0.932 0.0 0.0 0.068 [77]
S191213g 2019-12-13 04:34:08
4480
201±81
H,L,V 3.5 10−8 0.631 0.768 0.0 0.0 0.0 0.232 [78]
S200213t 2020-02-13 04:10:40
2326
201±80
H,L,V 1.8 10−8 0.401 0.629 0.0 0.0 0.0 0.371 [79]

Observation candidates from O4/2023

edit

On 15 June 2022, LIGO announced to start the O4 observing run in March 2023.[80] As the date got closer, engineering challenges delayed the observing run to May 2023.[81] An engineering run to assess the sensitivity of LIGO, Virgo, and KAGRA began in April, with the Hanford detector's first operations beginning on April 29,[82] and the Livingston and Virgo detectors' first operations beginning on May 5.[83]

On March 7, 2023, a gamma-ray burst compatible with a neutron star merger was detected by the Fermi telescope and named GRB 230307A. The burst, identified as being from a host galaxy approximately 296 Mpc away, would likely have only been marginally detected at best by LIGO if it had been operating at the time, as the detectors would only later achieve a sensitivity of 160 Mpc for neutron star mergers by O4's beginning, 3 months later.

Near the end of the engineering run on 15 May 2023, LIGO announced that O4 would be beginning on 24 May 2023, running for 20 months with up to 2 months of maintenance. The LIGO detectors initially failed to achieve the hoped for 160-190 Mpc sensitivity for neutron star mergers, but did achieve an improved 130-150 Mpc sensitivity over O3's 100-140 Mpc, later improving to nearly 160 Mpc for both detectors by late 2023. Virgo was found to have both a damaged mirror and other new, unknown noise sources, limiting its sensitivity to just 31-35 Mpc (similar to its performance during O2 in 2017, and lower than O3's 40-50 Mpc.) As a result, Virgo spent most of 2023 in commissioning, with a deadline of March 2024 to improve its sensitivity before joining O4. KAGRA achieved its planned 1 Mpc sensitivity before returning to commissioning in July, with plans to rejoin at an improved 10 Mpc sensitivity by early 2024. However, the Mw7.5 2024 Noto earthquake occurred on 1 January 2024 only 103 kilometres (64 mi) from KAGRA, damaging the detector's sensitive instruments and delaying its development by at least several months.

On 18 May 2023, near the end of the engineering run and shortly before O4 proper, the first candidate gravitational wave event was detected. Four more were detected before the official beginning of the run. In October, LIGO announced a planned pause between January and March 2024, for a mid-run commissioning break intended to reduce noise and improve the uptime of the detectors.

The O4b run began in April 2024 with the addition of the Virgo detector at a sensitivity of 55 Mpc. The Livingston detector achieved an increased sensitivity of 170-175 Mpc, while the Hanford detector maintained its pre-break sensitivity of 155-160 Mpc. Due to a variety of factors including delays in technologies required for O5, the decision was made in June 2024 to extend O4 by several months to June 2025, with O5 expected to begin in late 2027 or early 2028.

Candidate detections from O4 by month[n 23]
5
10
15
20
25
30
23/05
06
07
08
09
10
11
12
24/01
02
03
04
05
06
07
08
09
10
11
  •   BNS mergers
  •   NS-BH mergers
  •   mass gap
  •   BBH mergers
  •   unidentified
O4 detections by distance[n 23]
9
18
27
36
45
54
63
72
81
90
<100 Mpc
100-200 Mpc
200-500 Mpc
500-1000 Mpc
1-2 Gpc
2-5 Gpc
5-10 Gpc
10+ Gpc
  •   BNS mergers
  •   NS-BH mergers
  •   mass gap
  •   BBH mergers
List of O4 event alerts
GW event  Detection
time (UTC)
Location
area
[n 24]
(deg2)
Luminosity
distance

(Mpc)
[n 25]
Detector
[n 26]
False Alarm
Rate (Hz)
False Alarm
chance in O4
[n 27]
[n 23]
Classification Notes Ref
NS / NS
[n 28]
NS / BH
[n 29]
BH / BH
[n 30]
Mass gap
[n 31]
Terrestrial
[n 32]
S230518h 2023-05-18
12:59:07
460; near the galactic plane
204±57
H,L 3.2 10−10 0.018 0.0 0.864 0.037 0.0 0.099 Detected during the engineering phase, before the official start of O4. [84]
S230520ae 2023-05-20
22:48:41
1702
2014±663
H,L 3.1 10−9 0.161 0.0 0.0 ~1.0 0.0 1.4e-7 [85]
S230522a 2023-05-22
09:38:04
24219
3102±1032
L 1.0 10−8 0.448 0.0 0.0 0.99973 0.00071 0.00027 [86]
S230522n 2023-05-22
15:30:32
29021
2221±870
L 6.5 10−9 0.311 0.0 0.0 0.993 0.0041 0.0069 [87]
S230601bf 2023-06-01
22:41:34
2531
3565±1260
H,L 1.7 10−15 9.6 10−8 0.0 0.0 ~1.0 0.0022 6.4e-9 [88]
S230605o 2023-06-05
06:53:43
1077
1067±333
H,L 4.5 10−9 0.229 0.0 0.0 0.988 0.0 0.012 [89]
S230606d 2023-06-06
00:43:05
1221
2545±874
H,L 1.1 10−8 0.481 0.0 0.0 0.99928 0.0 0.00072 [90]
S230608as 2023-06-08
20:50:47
1694
3447±1079
H,L 1.4 10−10 0.0078 0.0 0.0 0.99981 0.0 0.00019 [91]
S230609u 2023-06-09
06:49:58
1287
3390±1125
H,L 1.0 10−8 0.438 0.0 0.0 0.961 0.0 0.038 [92]
S230624av 2023-06-24
11:31:03
1024
2124±682
H,L 1.3 10−8 0.526 0.0 0.0 0.953 0.0 0.047 [93]
S230627c 2023-06-27
01:53:37
82; towards Leo, Leo Minor, Ursa Major, or Draco
291±64
H,L 3.2 10−10 0.018 0.0 0.365 0.354 0.251 0.030 [94]
S230628ax 2023-06-28
23:12:00
705
2047±585
H,L 3.2 10−10 0.018 0.0 0.0 ~1.0 0.0 2.4e-5 [95]
S230630am 2023-06-30
12:58:06
3642
8710±2735
H,L 2.4 10−8 0.750 0.0 0.0 0.941 0.042 0.017 [96]
S230630bq 2023-06-30
23:45:32
1975
1150±360
H,L 7.7 10−9 0.358 0.0 0.00076 0.890 0.079 0.031 [97]
S230702an 2023-07-02
18:54:53
2267
2428±849
H,L 1.5 10−12 8.8 10−5 0.0 0.0 ~1.0 0.0 2.8e-5 [98]
S230704f 2023-07-04
02:12:11
1948
2965±978
H,L 2.8 10−9 0.149 0.0 0.0 0.997 0.0 0.0026 [99]
S230706ah 2023-07-06
10:43:33
1553
2143±684
H,L 4.3 10−8 0.914 0.0 0.0 0.939 0.035 0.027 [100]
S230707ai 2023-07-07
12:40:47
2714
3766±1135
H,L 1.4 10−8 0.546 0.0 0.0 0.951 0.0 0.049 [101]
S230708t 2023-07-08
05:37:05
1227
3010±988
H,L 4.3 10−8 0.917 0.0 0.0 0.973 0.0041 0.027 [102]
S230708z 2023-07-08
07:18:59
3373
4647±1696
H,L 7.0 10−8 0.982 0.0 0.0 0.954 0.0041 0.046 [103]
S230708cf 2023-07-08
23:09:35
2525
2056±608
H,L 1.6 10−8 0.590 0.0 0.0 0.989 0.0 0.011 [104]
S230709bi 2023-07-09
12:27:27
2644
4364±1585
H,L 3.1 10−9 0.161 0.0 0.0 0.997 0.0 0.0028 [105]
S230723ac 2023-07-23
10:18:23
1117
1551±436
H,L 5.3 10−8 0.953 0.0 0.0 0.867 0.0 0.133 [106]
S230726a 2023-07-26
00:29:40
27774
2132±714
L 3.8 10−14 2.2 10−6 0.0 0.0 ~1.0 0.0 1.4e-7 Detected by only the Livingston detector, resulting in a bad sky localization. [107]
S230729z 2023-07-29
08:23:17
1945
1495±444
H,L 3.4 10−9 0.177 0.0 0.0 0.942 0.055 0.0030 [108]
S230731an 2023-07-31
21:53:07
599
1001±242
H,L 3.2 10−10 0.018 0.0 0.174 0.771 0.053 0.0022 [109]
S230802aq 2023-08-02
11:33:59
25885
576±246
H 2.2 10−8 0.722 0.0 0.020 0.289 0.657 0.035 The other component is a black hole. Detected by only the Hanford detector, resulting in a bad sky localization. [110]
S230805x 2023-08-05
03:42:49
2235
3852±1193
H,L 9.2 10−9 0.410 0.0 0.0 0.99975 0.0 0.00025 [111]
S230806ak 2023-08-06
20:40:41
3715
5423±1862
H,L 3.0 10−9 0.156 0.0 0.0 0.997 0.0 0.0026 [112]
S230807f 2023-08-07
20:50:45
5436
5272±1900
H,L 7.1 10−8 0.983 0.0 0.0 0.913 0.041 0.047 [113]
S230811n 2023-08-11
03:21:16
810
1905±672
H,L 3.2 10−10 0.018 0.0 0.0 ~1.0 0.0 2.2e-5 [114]
S230814r 2023-08-14
06:19:20
3389
3788±1416
H,L 4.8 10−8 0.937 0.0 0.0 0.932 0.0 0.068 [115]
S230814ah 2023-08-14
23:09:01
25259
330±105
L 1.7 10−21 0.0 0.0 0.0 ~1.0 0.0 2.0e-14 Detected by only the Livingston detector, resulting in a bad sky localization. [116]
S230819ax 2023-08-19
17:19:10
4044
4216±1645
H,L 8.8 10−9 0.398 0.0 0.0 0.993 0.0 0.0072 [117]
S230820bq 2023-08-20
21:25:15
1373
3600±1437
H,L 4.2 10−8 0.912 0.0 0.0 0.958 0.0 0.042 [118]
S230822bm 2023-08-22
23:03:37
3974
5154±1771
H,L 2.6 10−8 0.773 0.0 0.0 0.939 0.042 0.019 [119]
S230824r 2023-08-24
03:30:47
3279
4701±1563
H,L 1.6 10−11 0.00094 0.0 0.0 ~1.0 0.0 2.9e-5 [120]
S230825k 2023-08-25
04:13:34
3012
5283±2117
H,L 2.4 10−9 0.128 0.0 0.0 0.939 0.059 0.0022 [121]
S230831e 2023-08-31
01:54:14
3803
4900±2126
H,L 2.0 10−8 0.679 0.0 0.0 0.985 0.0073 0.015 [122]
S230904n 2023-09-04
05:10:13
2015
1095±327
H,L 2.2 10−9 0.121 0.0 0.0007 0.927 0.064 0.009 [123]
S230911ae 2023-09-11
19:53:24
27759
1623±584
H 1.9 10−12 0.00011 0.0 0.0 ~1.0 0.0 3.6e-6 Detected by only the Hanford detector, resulting in a bad sky localization. [124]
S230914ak 2023-09-14
11:14:01
1532
2676±827
H,L 9.0 10−10 0.050 0.0 0.0 0.992 0.0 0.0083 [125]
S230919bj 2023-09-19
21:57:12
708
1491±402
H,L 3.2 10−10 0.018 0.0 0.0 0.99965 0.0 0.00035 [126]
S230920al 2023-09-20
07:11:24
2180
3139±1003
H,L 3.2 10−10 0.018 0.0 0.0 ~1.0 0.0 1.1e-5 [127]
S230922g 2023-09-22
02:03:44
324; towards Pisces Austrinus or Aquarius
1491±443
H,L 1.9 10−24 0.0 0.0 0.0 ~1.0 0.0 0.0 [128]
S230922q 2023-09-22
04:06:58
4658
6653±2348
H,L 3.6 10−10 0.021 0.0 0.0 ~1.0 0.0 2.2e-5 [129]
S230924an 2023-09-24
12:44:53
835
2358±596
H,L 3.2 10−10 0.018 0.0 0.0 ~1.0 0.0 1.9e-5 [130]
S230927l 2023-09-27
04:37:29
1177
2966±1041
H,L 1.1 10−8 0.461 0.0 0.0 0.976 0.0 0.024 [131]
S230927be 2023-09-27
15:38:32
298
1059±289
H,L 3.2 10−10 0.018 0.0 0.0 0.99966 0.0 0.00034 [132]
S230928cb 2023-09-28
21:58:27
3102
4060±1553
H,L 9.5 10−10 0.053 0.0 0.0 ~1.0 0.0 2.8e-5 [133]
S230930al 2023-09-30
11:07:30
3166
4902±1671
H,L 7.4 10−9 0.346 0.0 0.0 0.994 0.0041 0.0061 [134]
S231001aq 2023-10-01
14:02:20
3181
4425±1946
H,L 5.0 10−9 0.248 0.0 0.0 0.996 0.0044 0.0040 [135]
S231005j 2023-10-05
02:10:30
5480
6417±2246
H,L 3.2 10−8 0.842 0.0 0.0 0.978 0.0 0.022 [136]
S231005ah 2023-10-05
09:15:49
2497
3707±1335
H,L 2.0 10−9 0.111 0.0 0.0 0.998 0.0041 0.0015 [137]
S231008ap 2023-10-08
14:25:21
3102
3531±1320
H,L 1.5 10−9 0.084 0.0 0.0 0.9986 0.0 0.0014 [138]
S231014r 2023-10-14
04:05:48
1807
2857±903
H,L 1.0 10−8 0.448 0.0 0.0 0.992 0.0 0.0080 [139]
S231020ba 2023-10-20
14:29:47
1339
1168±361
H,L 1.3 10−9 0.070 0.0 0.076 0.851 0.066 0.0070 [140]
S231020bw 2023-10-20
18:05:09
386
2620±694
H,L 3.5 10−10 0.020 0.0 0.0 0.99965 0.0 0.00035 [141]
S231028bg 2023-10-28
15:30:06
1207
4221±923
H,L 7.6 10−31 0.0 0.0 0.0 ~1.0 0.0 0.0 [142]
S231029y 2023-10-29
11:15:08
29972
3292±1313
L 2.2 10−10 0.012 0.0 0.0 0.99977 0.0 0.00023 Detected by only the Livingston detector, resulting in a bad sky localization. [143]
S231102w 2023-11-02
07:17:36
2343
3493±1015
H,L 5.8 10−23 0.0 0.0 0.0 ~1.0 0.0 3.3e-16 [144]
S231104ac 2023-11-04
13:34:18
759
1357±321
H,L 3.2 10−10 0.018 0.0 0.0020 0.988 0.0088 0.0018 [145]
S231108u 2023-11-08
12:51:42
949
1986±494
H,L 3.2 10−10 0.018 0.0 0.0 0.99969 0.0 0.00032 [146]
S231110g 2023-11-10
04:03:20
636
1849±533
H,L 1.9 10−8 0.670 0.0 0.0 0.968 0.0 0.032 [147]
S231113bb 2023-11-13
12:26:23
2172
3260±1181
H,L 5.6 10−8 0.960 0.0 0.0 0.965 0.0041 0.035 [148]
S231113bw 2023-11-13
20:04:17
1713
1186±376
H,L 1.4 10−8 0.543 0.0 0.161 0.743 0.056 0.040 [149]
S231114n 2023-11-14
04:32:11
1267
1317±407
H,L 3.2 10−10 0.018 0.0 0.0 0.99985 0.0095 0.00015 [150]
S231118d 2023-11-18
00:56:26
956
2110±585
H,L 3.2 10−10 0.018 0.0 0.0 0.99981 0.0 0.00019 [151]
S231118ab 2023-11-18
07:14:02
2898
4353±1588
H,L 1.9 10−8 0.663 0.0 0.0 0.985 0.0 0.015 [152]
S231118an 2023-11-18
09:06:02
1107
1337±347
H,L 7.5 10−8 0.986 0.0 0.015 0.726 0.017 0.242 [153]
S231119u 2023-11-19
07:52:48
5211
6597±2556
H,L 7.4 10−8 0.986 0.0 0.015 0.914 0.041 0.045 [154]
S231123cg 2023-11-23
13:54:30
2714
1148±338
H,L 3.2 10−10 0.018 0.0 0.015 0.99999 0.041 7.6e-6 [155]
S231127cg 2023-11-27
16:53:00
3450
4425±1718
H,L 5.8 10−9 0.284 0.0 0.0 0.996 0.0063 0.0044 [156]
S231129ac 2023-11-29
08:17:45
3089
3964±1513
H,L 1.8 10−8 0.637 0.0 0.0 0.986 0.0041 0.014 [157]
S231206ca 2023-12-06
23:31:34
2335
3230±1141
H,L 3.2 10−10 0.018 0.0 0.0 0.99998 0.0 0.000018 [158]
S231206cc 2023-12-06
23:39:01
342
1467±264
H,L 1.9 10−35 0.0 0.0 0.0 ~1.0 0.0 0.0 [159]
S231213ap 2023-12-13
11:14:17
1469
3861±1257
H,L 6.3 10−10 0.036 0.0 0.0 0.99998 0.0 0.000022 [160]
S231223j 2023-12-23
03:28:36
3520
4468±1602
H,L 1.1 10−9 0.062 0.0 0.0 0.99905 0.000023 0.00095 [161]
S231224e 2023-12-24
02:43:21
394
863±213
H,L 1.5 10−9 0.084 0.0 0.00019 0.880 0.117 0.0034 [162]
S231226av 2023-12-26
10:15:20
199
1218±171
H,L 1.1 10−50 0.0 0.0 0.0 ~1.0 0.0 0.0 [163]
S231231ag 2023-12-31
15:40:16
27061
1066±339
H 8.4 10−15 4.8 10−7 0.0 0.0 ~1.0 0.0 2.9e-8 Detected by only the Hanford detector, resulting in a bad sky localization. [164]
S240104bl 2024-01-04
16:49:32
27948
1978±618
H 3.6 10−17 0.0 0.0 0.0 ~1.0 0.0 2.2e-10 Detected by only the Hanford detector, resulting in a bad sky localization. [165]
S240107b 2024-01-07
01:32:15
4143
6089±2429
H,L 5.8 10−8 0.965 0.0 0.0 0.966 0.0 0.034 [166]
S240109a 2024-01-09
05:04:31
28048
1594±567
H 7.3 10−9 0.344 0.0 0.0 0.995 0.0 0.0053 Detected by only the Hanford detector, resulting in a bad sky localization. [167]
S240406aj 2024-04-06
06:28:47
1724
2449±692
H,L 1.6 10−15 8.9 10−8 0.0 0.0 ~1.0 0.0 9.2e-9 [168]
S240413p 2024-04-13
02:20:19
34; towards Leo or Sextans
526±101
H,L,V 3.2 10−10 0.018 0.0 0.0 0.584 0.400 0.020 [169]
S240420ax 2024-04-20
04:21:16
6423
?
H,L 5.7 10−8 0.961 0.0 0.0 0.0 0.0 ? Unidentified gravitational wave "burst" lasting 33 milliseconds at a frequency of 219 Hertz. [170]
S240422ed 2024-04-22
21:35:13
259; towards Puppis, Pyxis, or Hydra
188±43
H,L,V 3.1 10−13 1.8 10-5 0.0 0.541 0.0 0.459 1.3e-5 [171]
S240426s 2024-04-26
03:14:51
3050
3452±1295
H,L 7.6 10−9 0.354 0.0 0.0 0.968 0.030 0.00191 [172]
S240428dr 2024-04-28
22:54:40
286
765±177
H,V 2.1 10−14 1.2 10−6 0.0 0.0 ~1.0 0.0 7.4e-8 [173]
S240430ca 2024-04-30
09:35:17
4061
6212±2593
H,L 7.5 10−8 0.986 0.0 0.0 0.920 0.041 0.039 [174]
S240501an 2024-05-01
03:35:34
1079
4022±1460
H,L,V 4.2 10−10 0.024 0.0 0.0 0.99999 0.0 1.3e-5 [175]
S240505av 2024-05-05
13:35:52
1469
4570±1415
H,L,V 2.3 10−8 0.731 0.0 0.0 0.985 0.0 0.015 [176]
S240507p 2024-05-07
04:16:32
279; mostly towards
Canis Major or Cassiopeia
1328±370
H,L,V 6.3 10−10 0.036 0.0 0.0 0.963 0.036 0.00031 [177]
S240511i 2024-05-11
03:15:07
85; towards Crater or Hydra
1906±404
H,L,V 3.2 10−10 0.018 0.0 0.0 0.99998 0.0 1.7e-5 [178]
S240512r 2024-05-12
02:41:39
216
1082±266
H,L,V 3.2 10−10 0.018 0.0 0.020 0.958 0.020 0.0017 [179]
S240513ei 2024-05-13
18:33:02
37; towards Auriga or Perseus
2254±458
H,L,V 3.2 10−10 0.018 0.0 0.0 0.99973 0.0 0.00027 [180]
S240514c 2024-05-14
08:03:21
30758
4182±1833
L 9.6 10−9 0.425 0.0 0.0 0.9932 0.0 0.0064 Detected by only the Livingston detector, resulting in a bad sky localization. [181]
S240514x 2024-05-14
12:17:13
142; mostly towards Reticulum
2594±587
H,L,V 3.2 10−10 0.018 0.0 0.0 0.99998 0.0 1.8e-5 [182]
S240515m 2024-05-15
00:53:01
978
3559±976
H,L,V 5.3 10−21 0.0 0.0 0.0 ~1.0 0.0 4.3e-14 [183]
S240520cv 2024-05-20
21:36:16
89; towards Ursa Major, Indus, or Tucana
1136±235
H,L,V 3.2 10−10 0.018 0.0 0.030 0.921 0.047 0.0018 [184]
S240525p 2024-05-25
03:12:10
1517
4337±1519
H,L,V 1.7 10−8 0.619 0.0 0.0 0.902 0.086 0.012 [185]
S240527en 2024-05-27
18:34:29
986
5850±1907
H,L,V 2.5 10−9 0.135 0.0 0.00090 0.99907 0.0 2.7e-5 [186]
S240527fv 2024-05-27
23:09:10
19; towards Horologium
1119±188
H,L,V 1.4 10−8 0.559 0.0 0.0 0.987 0.0036 0.0096 [187]
S240530a 2024-05-30
01:24:17
196
1066±226
H,L,V 9.5 10−10 0.053 0.0 0.0 0.910 0.085 0.0048 [188]
S240531bp 2024-05-31
07:52:48
1323
3766±1491
H,L,V 3.7 10−12 0.00022 0.0 0.0 0.99999 0.0 6.5e-6 [189]
S240601aj 2024-06-01
06:12:00
2009
5366±2095
H,L 3.1 10−8 0.829 0.0 0.0 0.507 0.0 0.493 [190]
S240601co 2024-06-01
23:10:04
1110
1421±390
H,L,V 6.0 10−11 0.0034 0.0 0.0 0.928 0.072 0.00023 [191]
S240615dg 2024-06-15
11:36:20
5; towards northern Andromeda
1420±236
H,L,V 3.2 10−10 0.018 0.0 0.0 0.99998 0.0 1.7e-5 [192]
S240615ea 2024-06-15
16:07:35
653
3590±1058
H,L,V 1.5 10−8 0.582 0.0 0.0 0.99938 0.0 0.00062 [193]
S240618ah 2024-06-18
07:16:27
5116
5939±2437
H,L 6.5 10−8 0.976 0.0 0.0 0.921 0.041 0.038 [194]
S240621dy 2024-06-21
19:50:59
21; towards Perseus
1184±199
H,L,V 4.0 10−20 0.0 0.0 0.0 ~1.0 0.0 0.0 [195]
S240621eb 2024-06-21
20:09:35
920
4492±1407
H,L,V 4.3 10−8 0.916 0.0 0.0 0.9987 0.0 0.0013 [196]
S240621em 2024-06-21
21:40:41
3069
7458±2672
H,L,V 6.8 10−8 0.979 0.0 0.0 0.920 0.041 0.039 [197]
S240622h 2024-06-22
00:40:48
199
1350±303
H,L,V 1.2 10−8 0.499 0.0 0.0 0.974 0.011 0.015 [198]
S240627by 2024-06-27
13:16:22
934
1479±420
H,L,V 1.2 10−8 0.500 0.0 0.0 0.911 0.080 0.0084 [199]
S240629by 2024-06-29
14:52:56
66
1173±245
H,L,V 3.2 10−10 0.018 0.0 0.073 0.798 0.127 0.0015 [200]
S240630t 2024-06-30
10:17:03
670
3161±841
H,L,V 1.9 10−12 0.00011 0.0 0.0 ~1.0 0.0 3.3e-6 [201]
S240703ad 2024-07-03
19:13:55
3785
1894±679
H,V 1.2 10−13 6.8 10-6 0.0 0.0 ~1.0 0.0 2.8e-7 [202]
S240705at 2024-07-05
05:32:15
172
3694±880
H,L,V 7.1 10−16 3.8 10-8 0.0 0.0 ~1.0 0.0 0.0 [203]
S240716b 2024-07-16
03:49:00
10324
1821±686
L,V 7.9 10−16 4.5 10-8 0.0 0.0 ~1.0 0.0 3.6e-9 [204]
S240807h 2024-08-07
21:45:59
12857
1018±295
L,V 2.0 10−11 0.0012 0.0 0.00010 0.956 0.044 3.2e-5 [205]
S240813c 2024-08-13
03:45:48
13782
1240±392
L,V 2.6 10−9 0.139 0.0 0.0 0.909 0.089 0.0022 [206]
S240813d 2024-08-13
04:39:13
1776
1065±259
L,V 1.8 10−18 0.0 0.0 0.0 ~1.0 0.0 1.2e-11 [207]
S240825ar 2024-08-25
05:51:46
1203
1342±380
H,L,V 3.2 10−9 0.166 0.0 0.025 0.930 0.036 0.0091 [208]
S240830gn 2024-08-30
21:11:20
410
1118±297
H,L,V 6.3 10−10 0.036 0.0 0.105 0.891 0.084 0.0031 [209]
S240902bq 2024-09-02
14:33:06
584
2420±828
H,L,V 2.5 10−9 0.135 0.0 0.0 0.99990 0.0 9.94e-5 [210]
S240907cg 2024-09-07
15:38:33
1065
4333±1354
H,L,V 9.1 10−10 0.051 0.0 0.0 0.99914 0.0 0.00086 [211]
S240908bs 2024-09-08
08:26:28
74; towards northern Aries
3350±1130
H,L,V 3.2 10−10 0.018 0.0 0.0 0.997 0.0031 1.4e-5 [212]
S240908dg 2024-09-08
12:51:34
1021
5004±1764
H,L,V 7.2 10−8 0.984 0.0 0.0 0.910 0.041 0.050 [213]
S240910ci 2024-09-10
10:35:35
394
662±166
H,L 3.2 10−10 0.018 0.0 0.280 0.628 0.090 0.0015 [214]
S240915b 2024-09-15
00:13:57
18; towards Southern Puppis
872±149
H,L,V 3.2 10−10 0.018 0.0 0.121 0.745 0.132 0.0015 [215]
S240915bd 2024-09-15
10:51:51
4244
612±139
H,V 3.3 10−14 1.9 10-6 0.0 0.00037 0.899 0.101 1.2e-7 [216]
S240917cb 2024-09-17
13:02:37
8644
6657±3466
H,L 5.4 10−8 0.955 0.0 0.0 0.903 0.057 0.040 [217]
S240919bn 2024-09-19
06:15:59
16; towards Southern Perseus
1711±490
H,L,V 4.0 10−20 0.0 0.0 0.0 ~1.0 0.0 0.0 [218]
S240920bz 2024-09-20
07:34:24
349
1372±305
H,L,V 3.2 10−10 0.018 0.0 0.0 0.99972 0.0 0.00028 [219]
S240920dw 2024-09-20
12:40:24
135
977±160
H,L 9.7 10−52 0.0 0.0 0.0 ~1.0 0.0 0.0 [220]
S240921cw 2024-09-21
20:18:35
471
866±204
L,V 3.2 10−10 0.045 0.0 0.0 0.997 0.0025 0.00078 [221]
S240922df 2024-09-22
14:21:06
97; towards Capricornus
1175±262
H,L,V 1.4 10−24 0.0 0.0 0.0 0.965 0.035 0.0 [222]
S240923ct 2024-09-23
20:40:06
4025±1076
H,L,V 7.6 10−16 4.5 10-8 0.0 0.0 ~1.0 0.0 2.9e-9 [223]
S240924a 2024-09-24
00:03:16
660
3816±1285
H,L,V 2.5 10−9 0.132 0.0 0.0 0.99993 0.0 7.1e-5 [224]
S240925n 2024-09-25
00:58:59
40; towards central Aquila
329±76
H,L,V 4.0 10−20 0.0 0.0 0.0 0.742 0.258 0.0 [225]
S240930aa 2024-09-30
00:58:59
457
1400±323
H,L,V 3.1 10−19 0.0 0.0 0.0 0.99960 0.00040 1.7e-12 [226]
S240930du 2024-09-30
23:46:14
708
3874±1404
H,L 1.3 10−8 0.521 0.0 0.0 0.666 0.0 0.334 [227]
S241002e 2024-10-02
03:05:59
1237
1607±557
L,V 1.4 10−21 0.0 0.0 0.0 0.997 0.003 1.05e-14 [228]
S241006k 2024-10-06
01:53:33
263
1899±441
H,L,V 5.9 10−42 0.0 0.0 0.0 ~1.0 0.0 0.0 [229]
S241007bw 2024-10-07
08:29:43
967
4355±1289
H,L,V 1.6 10−8 0.611 0.0 0.0 0.988 0.0 0.012 [230]
S241009l 2024-10-09
02:28:35
2544
6642±2029
H,L,V 3.3 10−8 0.851 0.0 0.0 0.971 0.004 0.025 [231]
S241009an 2024-10-09
08:48:16
542
1208±365
H,L,V 1.9 10−12 0.00011 0.0 0.0 0.982 0.017 2.9e-6 [232]
S241009em 2024-10-09
22:04:55
813
3831±1633
H,L,V 2.8 10−9 0.149 0.0 0.0 0.998 0.0 0.0025 [233]
S241011k 2024-10-11
23:38:34
76; towards Ophiuchus or Serpens Cauda
232±51
H,V 2.5 10−34 0.0 0.0 0.00022 0.967 0.033 1.1e-16 [234]
S241101ee 2024-11-01
22:05:23
9938
2003±601
L,V 1.4 10−11 0.00079 0.0 0.0 0.99998 0.0 2.0e-5 [235]
S241102br 2024-11-02
12:40:58
45; towards Andromeda or Lacerta
354±63
H,L,V 1.1 10−41 0.0 0.0 0.0067 0.850 0.144 1.1e-16 [236]
S241102cy 2024-11-02
14:47:29
1069
2815±704
H,L,V 1.5 10−8 0.582 0.0 0.0 0.999 0.0 0.0011 [237]
S241109p 2024-11-09
03:33:17
6741
2807±1011
L,V 6.0 10−11 0.0035 0.0 0.0 0.99992 0.0 8.3e-5 [238]
S241109bn 2024-11-09
11:59:24
10138
603±159
H,V 1.4 10−11 0.00082 0.0 0.121 0.047 0.830 0.0026 The other component is a black hole. [239]
S241110br 2024-11-10
12:41:23
102; towards Northern Centaurus
749±173
H,L,V 4.7 10−9 0.236 0.0 0.0 0.942 0.054 0.0038 [240]
S241111bn 2024-11-11
11:15:52
472
1401±367
H,L 7.1 10−30 0.0 0.0 0.0 ~1.0 0.0 0.0 [241]
S241113p 2024-11-13
16:35:07
11072
1400±402
L,V 1.5 10−14 8.4 10−7 0.0 0.0 ~1.0 0.0 4.0e-8 [242]
S241114y 2024-11-14
02:47:11
538
3539±992
H,L,V 9.1 10−14 5.2 10−6 0.0 0.0 ~1.0 0.0 2.4e-7 [243]
S241114bi 2024-11-14
23:52:58
9934
782±219
L,V 1.8 10−13 1.0 10−5 0.0 0.00049 0.943 0.056 4.2e-7 [244]
S241116cq 2024-11-16
15:17:53
2222
4374±1228
H,L,V 7.0 10−9 0.330 0.0 0.0 0.99992 0.0 8.3e-5 [245]
S241122a 2024-11-22
17:51:00
24219
5800±1954
L 6.4 10−8 0.975 0.0 0.0 0.955 0.0 0.045 Detected by only the Livingston detector, resulting in a bad sky localization. [246]

See also

edit
  • GRB 150101B, a weak gamma-ray burst trigger observed prior to aLIGO O1 (beginning September 12, 2015), with claimed similarities to model-supported possible neutron star merger GW170817/GRB 170817A/AT2017gfo.

Notes

edit
  1. ^ The detection date of a GW event is indicated by its designation; i.e., event GW150914 was detected on 2015-09-14.
  2. ^ The relatively large and distant area of the sky within which it is claimed to be possible to localize the source.
  3. ^ 1 Mpc is approximately 3.26 Mly.
  4. ^ c2M is about 1.8×103 foe; 1.8×1047 J; 1.8×1054 erg; 4.3×1046 cal; 1.7×1044 BTU; 5.0×1040 kWh, or 4.3×1037 tonnes of TNT.
  5. ^ The chirp mass is the binary parameter most relevant to the evolution of the inspiral gravitational waveform, and thus is the mass that can be measured most accurately. It is related to, but less than, the geometric mean   of the binary masses, according to  , thus ranging from ~87% of   when the masses are the same to ~78% when they differ by an order of magnitude.
  6. ^ The dimensionless effective inspiral spin parameter is:  [13] where   is the mass of a black hole,   is its spin, and   is the angle between the orbital angular momentum and a merging black hole's spin (ranging from   when aligned to   when antialigned). It is the mass-weighted linear combination of the components of the black holes' spins aligned with the orbital axis[13][12] and has values ranging from −1 to 1 (the extremes correspond to situations with both black hole spins exactly antialigned and aligned, respectively, with orbital angular momentum).[14] This is the spin parameter most relevant to the evolution of the inspiral gravitational waveform, and it can be measured more accurately than those of the premerger BHs.[15]
  7. ^ Values of the dimensionless spin parameter   cJ/GM2 for a black hole range from zero to a maximum of one. The macroscopic properties of an isolated astrophysical (uncharged) black hole are fully determined by its mass and spin. Values for other objects can potentially exceed one. The largest value known for a neutron star is ≤ 0.4, and commonly used equations of state would limit that value to < 0.7.[16]
  8. ^ Spin estimate is 0.26+0.52
    −0.24
    .[17]
  9. ^ Spin estimate is 0.32+0.54
    −0.29
    .[17]
  10. ^ Based on a descending spin-down GW-chirp lasting 3.7 seconds post-merger, a hyper-massive neutron star was produced in delayed gravitational collapse to a Kerr black hole after 0.92 seconds.[27] [28]
  11. ^ Besides the loss of mass due to GW emission that occurred during the merger, the event is thought to have ejected 0.05±0.02 M of material.[29]
  12. ^ 1 Mpc is approximately 3.26 Mly.
  13. ^ Which instruments observed the event. (H = LIGO Hanford, L=LIGO Livingston, V=Virgo)
  14. ^ The area of the sky within which it was possible to localize the source.
  15. ^ 1 Mpc is approximately 3.26 Mly.
  16. ^ Which instruments observed the event. (H = LIGO Hanford, L=LIGO Livingston, V=Virgo)
  17. ^ The chance a random signal of this significance would occur at any point in O3's 11-month run. Calculated by 1 - (1-false alarm rate in Hz)28,512,000. This is not the chance of the given signal being 'real' or not: Background contamination (such as earthquakes) can cause statistically significant signals as well, and although four detections have a >50% chance to have occurred randomly in O3, there is only a 19.4% chance that none of these signals would be real.
  18. ^ Probability that both components have mass < 3 M
  19. ^ Probability that one component has mass < 3 M and the other has mass > 5 M
  20. ^ Probability that both components have mass > 5 M
  21. ^ Probability that at least one component has a mass in the range 3-5 M, between those of known neutron stars and black holes, a range sometimes identified as the "lower" mass gap
  22. ^ Probability that the source is terrestrial or non-cosmological (e.g. foreground noises and signals [e.g. "noise"] or a technical/systematic error ["glitch"])
  23. ^ a b c The following events had a pAstro of over 50%, but were at a low significance and thus not validated by the LIGO-Virgo collaboration. Many of these events are likely real, but at least some are likely false positives:
    2023 May: S230524b (BBH, pAstro = 0.725), S230525a (BBH, pAstro = 0.724), S230527bv (BBH, pAstro = 0.882), S230528a (NSMG, pAstro = 0.643), S230528bt (BBH, pAstro = 0.880)
    June: S230604z (BBH, pAstro = 0.748), S230606z (BBH, pAstro = 0.835), S230609a (BBH, pAstro = 0.956), S230615av (BBH, pAstro = 0.912), S230615az (BNS, pAstro = 0.847), S230623at (BBH, pastro = 0.707), S230628aj (BBH, pAstro = 0.694)
    July: S230704bd (BBH, pAstro = 0.755), S230711b (BBH, pAstro = 0.792), S230716o (BBH, pAstro = 0.750), S230725am (BBH, pAstro = 0.502), S230728ap (BBH, pAstro = 0.940)
    August: S230822ac (BBH, pAstro = 0.813), S230830q (BBH, pAstro = 0.923)
    September: S230902af (BBH, pAstro = 0.798), S230904bg (BBH, pAstro = 0.688)
    October: S231004bq (BBH, pAstro = 0.708), S231007w (BBH, pAstro = 0.746), S231025a (BNS, pAstro = 0.588), S231025ap (BBH, pAstro = 0.830)
    November: S231124z (BBH, pAstro = 0.647)
    December: S231223bg (BBH, pAstro = 0.690)
    2024 January: S240116p (BBH, pAstro = 0.789)
    April: S240407v (BBH, pAstro = 0.882), S240420dc (BBH, pAstro = 0.887), S240427am (BBH, pAstro = 0.639)
    May: S240513cx (BBH, pAstro = 0.738), S240525dy (BBH, pAstro = 0.885), S240526ak (BBH, pAstro = 0.626), S240527dh (BBH, pAstro = 0.915), S240531aa (BBH, pAstro = 0.905)
    June: S240613z (BBH, pAstro = 0.923), S240619z (BBH, pAstro = 0.739), S240621ch (BBH, pAstro = 0.680), S240627co (BBH, pAstro = 0.713)
    July: S240701bn (BBH, pAstro = 0.824)
    September: S240901ew (BBH, pAstro = 0.881), S240907ah (BBH, pAstro = 0.910), S240913bs (BBH, pAstro = 0.875), S240914db (BBH, pAstro = 0.608), S240915aw (BBH, pAstro = 0.678), S240921s (BBH, pAstro = 0.736), S240921cs (BBH, pAstro = 0.702)
    October: S241031cn (BBH, pAstro = 0.583)
    November: S241101s (BBH, pAstro = 0.800), S241106ae (BBH, pAstro = 0.927), S241111u (BBH, pAstro = 0.703), S241115cn (BBH, pastro = 0.626)
  24. ^ The area of the sky within which it was possible to localize the source.
  25. ^ 1 Mpc is approximately 3.26 Mly.
  26. ^ Which instruments observed the event. (H = LIGO Hanford, L=LIGO Livingston, V=Virgo)
  27. ^ The chance a random signal of this significance would occur at any point in O4's 20-month run. Calculated by 1 - (1-false alarm rate in Hz)57,456,000. This is not the chance of the given signal being 'real' or not: Even if there is a 90% chance of O4 having random noise eventually reach a certain level of significance, the chance of such noise occurring 100 separate times in the same period is still very low (in this example, around 0.0026%).
  28. ^ Probability that both components have mass < 3 M
  29. ^ Probability that one component has mass < 3 M and the other has mass > 5 M
  30. ^ Probability that both components have mass > 5 M
  31. ^ Probability that at least one component has a mass in the range 3-5 M, between those of known neutron stars and black holes, a range sometimes identified as the "lower" mass gap
  32. ^ Probability that the source is terrestrial or non-cosmological (e.g. foreground noises and signals [e.g. "noise"] or a technical/systematic error ["glitch"])

References

edit
  1. ^ "GW150914 - The First Direct Detection of Gravitational Waves". www.ligo.org. Retrieved 2023-03-15.
  2. ^ a b "LSC News". www.ligo.org. Retrieved 2023-03-15.
  3. ^ The LIGO Scientific Collaboration; the Virgo Collaboration; Abbott, B. P.; Abbott, R.; Abbott, T. D.; Abraham, S.; Acernese, F.; Ackley, K.; Adams, C.; Adhikari, R. X.; Adya, V. B. (2019-09-04). "GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs". Physical Review X. 9 (3): 031040. arXiv:1811.12907. Bibcode:2019PhRvX...9c1040A. doi:10.1103/PhysRevX.9.031040. ISSN 2160-3308. S2CID 119366083.
  4. ^ Burtnyk, Kimberly (2019-10-01). "LIGO's Commissioning Break Commences". LIGO Lab | Caltech. Retrieved 2020-07-01.
  5. ^ a b "LIGO Suspends Third Observing Run (O3)". LIGO Lab. Caltech. Retrieved 20 April 2020.
  6. ^ a b Ligo, Virgo and Kagra Observing Run Plans
  7. ^ "IGWN | Observing Plans".
  8. ^ "GCN/LVC Notices". Goddard Space Flight Center. Retrieved 2019-11-11.
  9. ^ Fragione, Giacomo; et al. (2019). "Black Hole and Neutron Star Mergers in Galactic Nuclei". Monthly Notices of the Royal Astronomical Society. 488 (1): 47–63. arXiv:1811.10627. Bibcode:2019MNRAS.488...47F. doi:10.1093/mnras/stz1651. S2CID 85459844.
  10. ^ Strickland, Ashley (3 May 2019). "Scientists may have detected violent collision between neutron star, black hole". CNN. Retrieved 3 May 2019.
  11. ^ a b c Nitz, Alexander H. (25 February 2019). "1-OGC: The first open gravitational-wave catalog of binary mergers from analysis of public Advanced LIGO data". Astrophysical Journal. 872 (2): 195. arXiv:1811.01921. Bibcode:2019ApJ...872..195N. doi:10.3847/1538-4357/ab0108. S2CID 119389481.
  12. ^ a b c d e f g h Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (2019). "GWTC-1: A Gravitational-Wave Transient Catalog of Compact Binary Mergers Observed by LIGO and Virgo during the First and Second Observing Runs". Physical Review X. 9 (3): 031040. arXiv:1811.12907. Bibcode:2019PhRvX...9c1040A. doi:10.1103/PhysRevX.9.031040. S2CID 119366083.
  13. ^ a b c Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (1 June 2017). "GW170104: Observation of a 50-Solar-Mass Binary Black Hole Coalescence at Redshift 0.2". Physical Review Letters. 118 (22): 221101. arXiv:1706.01812. Bibcode:2017PhRvL.118v1101A. doi:10.1103/PhysRevLett.118.221101. PMID 28621973. S2CID 206291714.
  14. ^ Farr, W. M.; Stevenson, S.; Miller, M. C.; Mandel, I.; F arr, B.; Vecchio, A. (2017). "Distinguishing spin-aligned and isotropic black hole populations with gravitational waves". Nature. 548 (7667): 426–429. arXiv:1706.01385. Bibcode:2017Natur.548..426F. doi:10.1038/nature23453. PMID 28836595. S2CID 4411726.
  15. ^ Vitale, S.; Lynch, R.; Raymond, V.; Sturani, R.; Veitch, J.; Graff, P. (2017). "Parameter estimation for heavy binary-black holes with networks of second-generation gravitational-wave detectors". Physical Review D. 95 (6): 064053. arXiv:1611.01122. Bibcode:2017PhRvD..95f4053V. doi:10.1103/PhysRevD.95.064053. hdl:1721.1/109575. S2CID 118511535.
  16. ^ a b Abbott, B.P.; et al. (LIGO Scientific Collaboration & Virgo Collaboration) (16 October 2017). "GW170817: Observation of Gravitational Waves from a Binary Neutron Star Inspiral". Physical Review Letters. 119 (16): 161101. arXiv:1710.05832. Bibcode:2017PhRvL.119p1101A. doi:10.1103/PhysRevLett.119.161101. PMID 29099225. S2CID 217163611.
  17. ^ a b c The LIGO Scientific Collaboration and The Virgo Collaboration (3 June 2016). "An improved analysis of GW150914 using a fully spin-precessing waveform model". Physical Review X. 6 (4): 041014. arXiv:1606.01210. Bibcode:2016PhRvX...6d1014A. doi:10.1103/PhysRevX.6.041014. S2CID 18217435.
  18. ^ Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (11 February 2016). "Observation of Gravitational Waves from a Binary Black Hole Merger". Physical Review Letters. 116 (6): 061102. arXiv:1602.03837. Bibcode:2016PhRvL.116f1102A. doi:10.1103/PhysRevLett.116.061102. PMID 26918975. S2CID 124959784.
  19. ^ Tushna Commissariat (11 February 2016). "LIGO detects first ever gravitational waves – from two merging black holes". Physics World.
  20. ^ Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (21 October 2016). "Binary Black Hole Mergers in the first Advanced LIGO Observing Run". Physical Review X. 6 (4): 041015. arXiv:1606.04856. Bibcode:2016PhRvX...6d1015A. doi:10.1103/PhysRevX.6.041015. S2CID 31926886.
  21. ^ Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (15 June 2016). "GW151226: Observation of Gravitational Waves from a 22-Solar-Mass Binary Black Hole Coalescence". Physical Review Letters. 116 (24): 241103. arXiv:1606.04855. Bibcode:2016PhRvL.116x1103A. doi:10.1103/PhysRevLett.116.241103. PMID 27367379. S2CID 118651851.
  22. ^ Nemiroff, R.; Bonnell, J., eds. (15 June 2016). "GW151226: A Second Confirmed Source of Gravitational Radiation". Astronomy Picture of the Day. NASA.
  23. ^ Overbye, Dennis (1 June 2017). "Gravitational Waves Felt From Black-Hole Merger 3 Billion Light-Years Away". New York Times. Retrieved 1 June 2017.
  24. ^ Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (18 December 2017). "GW170608: Observation of a 19-solar-mass Binary Black Hole Coalescence". The Astrophysical Journal Letters. 851 (2): L35. arXiv:1711.05578. Bibcode:2017ApJ...851L..35A. doi:10.3847/2041-8213/aa9f0c. S2CID 9030576.
  25. ^ Abbott, B.P.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (2017-10-06). "GW170814: A three-detector observation of gravitational waves from a binary black hole coalescence". Phys. Rev. Lett. 119 (14): 141101. arXiv:1709.09660. Bibcode:2017PhRvL.119n1101A. doi:10.1103/PhysRevLett.119.141101. PMID 29053306. S2CID 46829350.
  26. ^ Overbye, Dennis (27 September 2017). "New Gravitational Wave Detection From Colliding Black Holes". The New York Times. Retrieved 28 September 2017.
  27. ^ van Putten, Maurice H.P.M.; Della Valle, Massimo (January 2019). "Observational evidence for extended emission to GW170817". Monthly Notices of the Royal Astronomical Society: Letters. 482 (1): L46–L49. arXiv:1806.02165. Bibcode:2019MNRAS.482L..46V. doi:10.1093/mnrasl/sly166.
  28. ^ van Putten, M.H.P.M.; Della Valle, M. (2023). "Central engine of GRB170817A: Neutron star versus Kerr black hole based on multimessenger calorimetry and event timing". Astronomy & Astrophysics. 669: A36. arXiv:2212.03295. Bibcode:2023A&A...669A..36V. doi:10.1051/0004-6361/202142974.
  29. ^ Drout, M. R.; Piro, A. L.; Shappee, B. J.; et al. (2017-10-16). "Light curves of the neutron star merger GW170817/SSS17a: Implications for r-process nucleosynthesis". Science. 358 (6370): 1570–1574. arXiv:1710.05443. Bibcode:2017Sci...358.1570D. doi:10.1126/science.aaq0049. PMID 29038375.
  30. ^ Abbott, B.P.; et al. (LIGO, Virgo and other collaborations) (October 2017). "Multi-messenger Observations of a Binary Neutron Star Merger" (PDF). The Astrophysical Journal. 848 (2): L12. arXiv:1710.05833. Bibcode:2017ApJ...848L..12A. doi:10.3847/2041-8213/aa91c9.
  31. ^ Cho, Adrian (16 October 2017). "Merging neutron stars generate gravitational waves and a celestial light show". Science. Retrieved 16 October 2017.
  32. ^ a b c d e f g h The LIGO Scientific Collaboration; the Virgo Collaboration (5 January 2024). "GWTC-2.1: Deep Extended Catalog of Compact Binary Coalescences Observed by LIGO and Virgo During the First Half of the Third Observing Run". Physical Review D. 109 (2): 022001. arXiv:2108.01045. Bibcode:2024PhRvD.109b2001A. doi:10.1103/PhysRevD.109.022001.
  33. ^ 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 The LIGO Scientific Collaboration; the Virgo Collaboration (2021). "GWTC-2: Compact Binary Coalescences Observed by LIGO and Virgo during the First Half of the Third Observing Run". Physical Review X. 11 (2): 021053. arXiv:2010.14527. Bibcode:2021PhRvX..11b1053A. doi:10.1103/PhysRevX.11.021053. S2CID 225094244.
  34. ^ "Superevent info - S190412m". LIGO. Retrieved 12 April 2019.
  35. ^ The LIGO Scientific Collaboration; the Virgo Collaboration; Abbott, R.; et al. (17 April 2020). "GW190412: Observation of a Binary-Black-Hole Coalescence with Asymmetric Masses". Physical Review D. 102 (4): 043015. arXiv:2004.08342. Bibcode:2020PhRvD.102d3015A. doi:10.1103/PhysRevD.102.043015. S2CID 215814461.
  36. ^ a b Позаненко, А. С.; Минаев, П. Ю.; Гребенев, С. А.; Человеков, И. В. (2019). "Наблюдение в гамма-диапазоне второго связанного со слиянием нейтронных звезд события LIGO/Virgo S190425z". Письма В Астрономический Журнал: Астрономия И Космическая Астрофизика (in Russian). 45 (11): 768–786. arXiv:1912.13112. doi:10.1134/S032001081911007X. S2CID 239427905.
  37. ^ "Gravitational waves reveal a second neutron star collision". 8 January 2020.
  38. ^ "Superevent info - S190425z". LIGO. Retrieved 25 April 2019.
  39. ^ The LIGO Scientific Collaboration; the Virgo Collaboration; et al. (6 January 2020). "GW190425: Observation of a Compact Binary Coalescence with Total Mass ~ 3.4 M". The Astrophysical Journal. 892 (1): L3. arXiv:2001.01761. Bibcode:2020ApJ...892L...3A. doi:10.3847/2041-8213/ab75f5. S2CID 210023687.
  40. ^ Abbott, R.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (2 September 2020). "GW190521: A Binary Black Hole Merger with a Total Mass of 150 M ⊙". Physical Review Letters. 125 (10): 101102. arXiv:2009.01075. Bibcode:2020PhRvL.125j1102A. doi:10.1103/PhysRevLett.125.101102. PMID 32955328. S2CID 221447506.
  41. ^ Abbott, R.; et al. (LIGO Scientific Collaboration and Virgo Collaboration) (2 September 2020). "Properties and Astrophysical Implications of the 150 M ⊙ Binary Black Hole Merger GW190521". The Astrophysical Journal. 900 (1): L13. arXiv:2009.01190. Bibcode:2020ApJ...900L..13A. doi:10.3847/2041-8213/aba493. hdl:11343/273616. S2CID 221447444.
  42. ^ "Black hole or neutron star?". June 23, 2020.
  43. ^ "Superevent info - S190814bv". LIGO. Retrieved 15 August 2019.
  44. ^ Starr, Michelle (16 August 2019). "Early Reports Indicate We May Have Detected a Black Hole And Neutron Star Collision". ScienceAlert.com. Retrieved 16 August 2019.
  45. ^ Mandelbum, Ryan F. (26 August 2019). "Mystery Deepens Around Newly Detected Ripples in Space-Time". Gizmodo. Retrieved 26 August 2019.
  46. ^ Starr, Michelle (11 February 2020). "First Papers on The Black Hole-Neutron Star Merger Are In. Here's What We Didn't See". ScienceAlert.com. Retrieved 11 February 2020.
  47. ^ Ackley, K.; et al. (5 February 2020). "Observational constraints on the optical and near-infrared emission from the neutron star-black hole binary merger S190814bv". arXiv:2002.01950v1 [astro-ph.SR].
  48. ^ Overbye, Dennis (24 June 2020). "A Black Hole's Lunch Provides a Treat for Astronomers - Scientists have discovered the heaviest known neutron star, or maybe the lightest known black hole: "Either way it breaks a record."". The New York Times. Retrieved 24 June 2020.
  49. ^ Starr, Michelle (24 June 2020). "Astronomers Detect First-Ever Mystery Object in The 'Mass Gap' of Cosmic Collisions". ScienceAlert.com. Retrieved 24 June 2020.
  50. ^ University of Birmingham (23 June 2020). "Gravitational wave scientists grapple with the cosmic mystery of GW190814". EurekAlert!. Retrieved 24 June 2020.
  51. ^ Abbott, R.; et al. (23 June 2020). "GW190814: Gravitational Waves from the Coalescence of a 23 Solar Mass Black Hole with a 2.6 Solar Mass Compact Object". The Astrophysical Journal Letters. 896 (2): L44. arXiv:2006.12611. Bibcode:2020ApJ...896L..44A. doi:10.3847/2041-8213/ab960f.
  52. ^ 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 The LIGO Scientific Collaboration; et al. (2023). "GWTC-3: Compact Binary Coalescences Observed by LIGO and Virgo during the Second Part of the Third Observing Run". Physical Review X. 13 (4): 041039. arXiv:2111.03606. Bibcode:2023PhRvX..13d1039A. doi:10.1103/PhysRevX.13.041039.
  53. ^ a b Abbott, R.; et al. (2021). "Observation of Gravitational Waves from Two Neutron Star–Black Hole Coalescences". The Astrophysical Journal Letters. 915 (1): L5. arXiv:2106.15163. Bibcode:2021ApJ...915L...5A. doi:10.3847/2041-8213/ac082e. S2CID 235670241.
  54. ^ "Superevent info - S200105ae". LIGO. Retrieved 6 January 2020.
  55. ^ a b Bustillo, Juan Calderon; Sanchis-Gual, Nicolas; Leong, Samson H. W.; Chandra, Koustav; Torres-Forne, Alejandro; Font, Jose A.; Herdeiro, Carlos; Radu, Eugen; Wong, Isaac C. F.; Li, T. G. F. (2023). "Searching for vector boson-star mergers within LIGO-Virgo intermediate-mass black-hole merger candidates". Physical Review D. 108 (12): 123020. arXiv:2206.02551. Bibcode:2023PhRvD.108l3020C. doi:10.1103/PhysRevD.108.123020.
  56. ^ a b Hourihane, Sophie; Chatziioannou, Katerina; Wijngaarden, Marcella; Davis, Derek; Littenberg, Tyson; Cornish, Neil (15 August 2022). "Accurate modeling and mitigation of overlapping signals and glitches in gravitational-wave data". Physical Review D. 106 (4): 042006. arXiv:2205.13580. Bibcode:2022PhRvD.106d2006H. doi:10.1103/PhysRevD.106.042006. S2CID 249152318.
  57. ^ "Superevent info - S200115j". LIGO. Retrieved 15 January 2020.
  58. ^ LIGO Scientific Collaboration; Virgo Collaboration; KAGRA Collaboration (5 April 2024). "Observation of Gravitational Waves from the Coalescence of a 2.5-4.5 Msun Compact Object and a Neutron Star" (PDF). Preprint.
  59. ^ Hartono, Naomi (29 June 2023). "15 Years of Radio Data Reveals Evidence of Space-Time Murmur". NASA. Retrieved 3 July 2023.
  60. ^ a b c Nitz, Alexander H.; Dent, Thomas; Davies, Gareth S.; Kumar, Sumit; Capano, Collin D.; Harry, Ian; Mozzon, Simone; Nuttall, Laura; Lundgren, Andrew; Tápai, Márton (12 March 2020). "2-OGC: Open Gravitational-wave Catalog of Binary Mergers from Analysis of Public Advanced LIGO and Virgo Data". The Astrophysical Journal. 891 (2): 123. arXiv:1910.05331. Bibcode:2020ApJ...891..123N. doi:10.3847/1538-4357/ab733f. S2CID 204403263.
  61. ^ Venumadhav, Tejaswi; Zackay, Barak; Roulet, Javier; Dai, Liang; Zaldarriaga, Matias (2020). "New Binary Black Hole Mergers in the Second Observing Run of Advanced LIGO and Advanced Virgo". Physical Review D. 101 (8): 083030. arXiv:1904.07214. Bibcode:2020PhRvD.101h3030V. doi:10.1103/PhysRevD.101.083030. S2CID 119188594.
  62. ^ a b Zackay, Barak; Dai, Liang; Venumadhav, Tejaswi; Roulet, Javier; Zaldarriaga, Matias (2021). "Detecting Gravitational Waves With Disparate Detector Responses: Two New Binary Black Hole Mergers". Phys. Rev. D. 104 (8): 063030. arXiv:1910.09528. Bibcode:2020PhRvD.101h3030V. doi:10.1103/PhysRevD.101.083030. S2CID 119188594.
  63. ^ "Real-time alerts and circulars tracker" – via nasa.gov.
  64. ^ "Observing Plans and Public Alerts". www.ligo.org. LIGO Scientific Collaboration. October 2018. Retrieved 2018-10-28.
  65. ^ Singer, Leo P. (16 March 2017). "What constitutes an open, public alert?" (PDF). LSC (LIGO Scientific Collaboration). Retrieved 30 October 2018 – via gw-astronomy.org.
  66. ^ "GraceDB — Gravitational Wave Candidate Event Database" – via ligo.org.
  67. ^ "Real-time alerts and circulars tracker" – via nasa.gov.
  68. ^ "LIGO Announces Commissioning Break". LIGO Lab | Caltech. Retrieved 7 November 2019.
  69. ^ "KAGRA Gravitational-wave Telescope Starts Observation « KAGRA Large-scale Cryogenic Graviationai wave Telescope Project" (in Japanese). Retrieved 2020-02-27.
  70. ^ "KAGRA to Join LIGO and Virgo in Hunt for Gravitational Waves". LIGO Lab | Caltech. Retrieved 2019-10-06.
  71. ^ "LIGO Laboratory's Response to COVID-19". LIGO Lab. Caltech. Retrieved 24 March 2020.
  72. ^ "Superevent info - S190901ap". LIGO. Retrieved 6 September 2019.
  73. ^ "Superevent info - S190910d". LIGO. Retrieved 10 September 2019.
  74. ^ "Superevent info - S190910h". LIGO. Retrieved 10 September 2019.
  75. ^ "Superevent info - S190923y". LIGO. Retrieved 24 September 2019.
  76. ^ "Superevent info - S190930t". LIGO. Retrieved 30 September 2019.
  77. ^ "Superevent info - S191205ah". LIGO. Retrieved 5 December 2019.
  78. ^ "Superevent info - S191213g". LIGO. Retrieved 14 December 2019.
  79. ^ "Superevent info - S200213t". LIGO. Retrieved 13 February 2020.
  80. ^ "LIGO, Virgo and Kagra Observing Run Plans". LIGO Lab. Caltech. Retrieved 16 July 2022.
  81. ^ Burtnyk, Kimberly. "Latest Update on Start of Next Observing Run (O4)". LIGO. Caltech. Retrieved 18 May 2023.
  82. ^ "Detector status - 29 April 2023". gwosc.org. Retrieved 18 May 2023.
  83. ^ "Detector status - 5 May 2023". gwosc.org.
  84. ^ "Superevent info - S230518h". LIGO. Retrieved 18 May 2023.
  85. ^ "Superevent info - S230520ae". LIGO. Retrieved 21 May 2023.
  86. ^ "Superevent info - S230522a". LIGO. Retrieved 22 May 2023.
  87. ^ "Superevent info - S230522n". LIGO. Retrieved 22 May 2023.
  88. ^ "Superevent info - S230601bf". LIGO. Retrieved 1 June 2023.
  89. ^ "Superevent info - S230605o". LIGO. Retrieved 5 June 2023.
  90. ^ "Superevent info - S230606d". LIGO. Retrieved 6 June 2023.
  91. ^ "Superevent info - S230608as". LIGO. Retrieved 8 June 2023.
  92. ^ "Superevent info - S230609u". LIGO. Retrieved 9 June 2023.
  93. ^ "Superevent info - S230624av". LIGO. Retrieved 24 June 2023.
  94. ^ "Superevent info - S230627c". LIGO. Retrieved 27 June 2023.
  95. ^ "Superevent info - S230628ax". LIGO. Retrieved 28 June 2023.
  96. ^ "Superevent info - S230630am". LIGO. Retrieved 30 June 2023.
  97. ^ "Superevent info - S230630bq". LIGO. Retrieved 30 June 2023.
  98. ^ "Superevent info - S230702an". LIGO. Retrieved 2 July 2023.
  99. ^ "Superevent info - S230704f". LIGO. Retrieved 4 July 2023.
  100. ^ "Superevent info - S230706ah". LIGO. Retrieved 6 July 2023.
  101. ^ "Superevent info - S230707ai". LIGO. Retrieved 7 July 2023.
  102. ^ "Superevent info - S230708t". LIGO. Retrieved 8 July 2023.
  103. ^ "Superevent info - S230708z". LIGO. Retrieved 8 July 2023.
  104. ^ "Superevent info - S230708cf". LIGO. Retrieved 8 July 2023.
  105. ^ "Superevent info - S230709bi". LIGO. Retrieved 9 July 2023.
  106. ^ "Superevent info - S230723ac". LIGO. Retrieved 23 July 2023.
  107. ^ "Superevent info - S230726a". LIGO. Retrieved 26 July 2023.
  108. ^ "Superevent info - S230729z". LIGO. Retrieved 29 July 2023.
  109. ^ "Superevent info - S230731an". LIGO. Retrieved 31 July 2023.
  110. ^ "Superevent info - S230802aq". LIGO. Retrieved 2 August 2023.
  111. ^ "Superevent info - S230805x". LIGO. Retrieved 5 August 2023.
  112. ^ "Superevent info - S230806ak". LIGO. Retrieved 6 August 2023.
  113. ^ "Superevent info - S230807f". LIGO. Retrieved 7 August 2023.
  114. ^ "Superevent info - S230811n". LIGO. Retrieved 11 August 2023.
  115. ^ "Superevent info - S230814r". LIGO. Retrieved 14 August 2023.
  116. ^ "Superevent info - S230814ah". LIGO. Retrieved 14 August 2023.
  117. ^ "Superevent info - S230819ax". LIGO. Retrieved 19 August 2023.
  118. ^ "Superevent info - S230820bq". LIGO. Retrieved 20 August 2023.
  119. ^ "Superevent info - S230822bm". LIGO. Retrieved 22 August 2023.
  120. ^ "Superevent info - S230824r". LIGO. Retrieved 24 August 2023.
  121. ^ "Superevent info - S230825k". LIGO. Retrieved 25 August 2023.
  122. ^ "Superevent info - S230831e". LIGO. Retrieved 31 August 2023.
  123. ^ "Superevent info - S230904n". LIGO. Retrieved 4 September 2023.
  124. ^ "Superevent info - S230911ae". LIGO. Retrieved 11 September 2023.
  125. ^ "Superevent info - S230914ak". LIGO. Retrieved 14 September 2023.
  126. ^ "Superevent info - S230919bj". LIGO. Retrieved 19 September 2023.
  127. ^ "Superevent info - S230920al". LIGO. Retrieved 20 September 2023.
  128. ^ "Superevent info - S230922g". LIGO. Retrieved 22 September 2023.
  129. ^ "Superevent info - S230922q". LIGO. Retrieved 22 September 2023.
  130. ^ "Superevent info - S230924an". LIGO. Retrieved 24 September 2023.
  131. ^ "Superevent info - S230927l". LIGO. Retrieved 27 September 2023.
  132. ^ "Superevent info - S230927be". LIGO. Retrieved 27 September 2023.
  133. ^ "Superevent info - S230928cb". LIGO. Retrieved 28 September 2023.
  134. ^ "Superevent info - S230930al". LIGO. Retrieved 30 September 2023.
  135. ^ "Superevent info - S231001aq". LIGO. Retrieved 1 October 2023.
  136. ^ "Superevent info - S231005j". LIGO. Retrieved 5 October 2023.
  137. ^ "Superevent info - S231005ah". LIGO. Retrieved 5 October 2023.
  138. ^ "Superevent info - S231008ap". LIGO. Retrieved 8 October 2023.
  139. ^ "Superevent info - S231014r". LIGO. Retrieved 14 October 2023.
  140. ^ "Superevent info - S231020ba". LIGO. Retrieved 20 October 2023.
  141. ^ "Superevent info - S231020bw". LIGO. Retrieved 20 October 2023.
  142. ^ "Superevent info - S231028bg". LIGO. Retrieved 28 October 2023.
  143. ^ "Superevent info - S231029y". LIGO. Retrieved 29 October 2023.
  144. ^ "Superevent info - S231102w". LIGO. Retrieved 2 November 2023.
  145. ^ "Superevent info - S231104ac". LIGO. Retrieved 4 November 2023.
  146. ^ "Superevent info - S231108u". LIGO. Retrieved 8 November 2023.
  147. ^ "Superevent info - S231110g". LIGO. Retrieved 10 November 2023.
  148. ^ "Superevent info - S231113bb". LIGO. Retrieved 13 November 2023.
  149. ^ "Superevent info - S231113bw". LIGO. Retrieved 13 November 2023.
  150. ^ "Superevent info - S231114n". LIGO. Retrieved 14 November 2023.
  151. ^ "Superevent info - S231118d". LIGO. Retrieved 18 November 2023.
  152. ^ "Superevent info - S231118ab". LIGO. Retrieved 18 November 2023.
  153. ^ "Superevent info - S231118an". LIGO. Retrieved 18 November 2023.
  154. ^ "Superevent info - S231119u". LIGO. Retrieved 19 November 2023.
  155. ^ "Superevent info - S231123cg". LIGO. Retrieved 23 November 2023.
  156. ^ "Superevent info - S231127cg". LIGO. Retrieved 27 November 2023.
  157. ^ "Superevent info - S231129ac". LIGO. Retrieved 29 November 2023.
  158. ^ "Superevent info - S231206ca". LIGO. Retrieved 7 December 2023.
  159. ^ "Superevent info - S231206cc". LIGO. Retrieved 7 December 2023.
  160. ^ "Superevent info - S231213ap". LIGO. Retrieved 13 December 2023.
  161. ^ "Superevent info - S231223j". LIGO. Retrieved 23 December 2023.
  162. ^ "Superevent info - S231224e". LIGO. Retrieved 24 December 2023.
  163. ^ "Superevent info - S231226av". LIGO. Retrieved 26 December 2023.
  164. ^ "Superevent info - S231231ag". LIGO. Retrieved 31 December 2023.
  165. ^ "Superevent info - S240104bl". LIGO. Retrieved 4 January 2024.
  166. ^ "Superevent info - S240107b". LIGO. Retrieved 7 January 2024.
  167. ^ "Superevent info - S240109a". LIGO. Retrieved 9 January 2024.
  168. ^ "Superevent info - S240406aj". LIGO. Retrieved 6 April 2024.
  169. ^ "Superevent info - S240413p". LIGO. Retrieved 13 April 2024.
  170. ^ "Superevent info - S240420ax". LIGO. Retrieved 20 April 2024.
  171. ^ "Superevent info - S240422ed". LIGO. Retrieved 22 April 2024.
  172. ^ "Superevent info - S240426s". LIGO. Retrieved 26 April 2024.
  173. ^ "Superevent info - S240428dr". LIGO. Retrieved 28 April 2024.
  174. ^ "Superevent info - S240430ca". LIGO. Retrieved 30 April 2024.
  175. ^ "Superevent info - S240501an". LIGO. Retrieved 1 May 2024.
  176. ^ "Superevent info - S240505av". LIGO. Retrieved 5 May 2024.
  177. ^ "Superevent info - S240507p". LIGO. Retrieved 7 May 2024.
  178. ^ "Superevent info - S240511i". LIGO. Retrieved 11 May 2024.
  179. ^ "Superevent info - S240512r". LIGO. Retrieved 12 May 2024.
  180. ^ "Superevent info - S240513ei". LIGO. Retrieved 13 May 2024.
  181. ^ "Superevent info - S240514c". LIGO. Retrieved 14 May 2024.
  182. ^ "Superevent info - S240514x". LIGO. Retrieved 14 May 2024.
  183. ^ "Superevent info - S240515m". LIGO. Retrieved 15 May 2024.
  184. ^ "Superevent info - S240520cv". LIGO. Retrieved 20 May 2024.
  185. ^ "Superevent info - S240525p". LIGO. Retrieved 25 May 2024.
  186. ^ "Superevent info - S240527en". LIGO. Retrieved 28 May 2024.
  187. ^ "Superevent info - S240527fv". LIGO. Retrieved 27 May 2024.
  188. ^ "Superevent info - S240530a". LIGO. Retrieved 30 May 2024.
  189. ^ "Superevent info - S240531bp". LIGO. Retrieved 31 May 2024.
  190. ^ "Superevent info - S240601aj". LIGO. Retrieved 1 June 2024.
  191. ^ "Superevent info - S240601co". LIGO. Retrieved 1 June 2024.
  192. ^ "Superevent info - S240615dg". LIGO. Retrieved 15 June 2024.
  193. ^ "Superevent info - S240615ea". LIGO. Retrieved 16 June 2024.
  194. ^ "Superevent info - S240618ah". LIGO. Retrieved 18 June 2024.
  195. ^ "Superevent info - S240621dy". LIGO. Retrieved 22 June 2024.
  196. ^ "Superevent info - S240621eb". LIGO. Retrieved 22 June 2024.
  197. ^ "Superevent info - S240621em". LIGO. Retrieved 22 June 2024.
  198. ^ "Superevent info - S240622h". LIGO. Retrieved 22 June 2024.
  199. ^ "Superevent info - S240627by". LIGO. Retrieved 27 June 2024.
  200. ^ "Superevent info - S240629by". LIGO. Retrieved 29 June 2024.
  201. ^ "Superevent info - S240630t". LIGO. Retrieved 30 June 2024.
  202. ^ "Superevent info - S240703ad". LIGO. Retrieved 3 July 2024.
  203. ^ "Superevent info - S240705at". LIGO. Retrieved 5 July 2024.
  204. ^ "Superevent info - S240716b". LIGO. Retrieved 16 July 2024.
  205. ^ "Superevent info - S240807h". LIGO. Retrieved 7 August 2024.
  206. ^ "Superevent info - S240813c". LIGO. Retrieved 13 August 2024.
  207. ^ "Superevent info - S240813d". LIGO. Retrieved 13 August 2024.
  208. ^ "Superevent info - S240825ar". LIGO. Retrieved 25 August 2024.
  209. ^ "Superevent info - S240830gn". LIGO. Retrieved 30 August 2024.
  210. ^ "Superevent info - S240902bq". LIGO. Retrieved 2 September 2024.
  211. ^ "Superevent info - S240907cg". LIGO. Retrieved 8 September 2024.
  212. ^ "Superevent info - S240908bs". LIGO. Retrieved 8 September 2024.
  213. ^ "Superevent info - S240908dg". LIGO. Retrieved 8 September 2024.
  214. ^ "Superevent info - S240910ci". LIGO. Retrieved 10 September 2024.
  215. ^ "Superevent info - S240915b". LIGO. Retrieved 15 September 2024.
  216. ^ "Superevent info - S240915bd". LIGO. Retrieved 15 September 2024.
  217. ^ "Superevent info - S240917cb". LIGO. Retrieved 17 September 2024.
  218. ^ "Superevent info - S240919bn". LIGO. Retrieved 19 September 2024.
  219. ^ "Superevent info - S240920bz". LIGO. Retrieved 20 September 2024.
  220. ^ "Superevent info - S240920dw". LIGO. Retrieved 14 October 2024.
  221. ^ "Superevent info - S240921cw". LIGO. Retrieved 21 September 2024.
  222. ^ "Superevent info - S240922df". LIGO. Retrieved 22 September 2024.
  223. ^ "Superevent info - S240923ct". LIGO. Retrieved 23 September 2024.
  224. ^ "Superevent info - S240924a". LIGO. Retrieved 24 September 2024.
  225. ^ "Superevent info - S240925n". LIGO. Retrieved 25 September 2024.
  226. ^ "Superevent info - S240930aa". LIGO. Retrieved 30 September 2024.
  227. ^ "Superevent info - S240930du". LIGO. Retrieved 1 October 2024.
  228. ^ "Superevent info - S2401002e". LIGO. Retrieved 2 October 2024.
  229. ^ "Superevent info - S2401006k". LIGO. Retrieved 6 October 2024.
  230. ^ "Superevent info - S2401007bw". LIGO. Retrieved 7 October 2024.
  231. ^ "Superevent info - S2401009l". LIGO. Retrieved 9 October 2024.
  232. ^ "Superevent info - S2401009an". LIGO. Retrieved 9 October 2024.
  233. ^ "Superevent info - S2401009em". LIGO. Retrieved 9 October 2024.
  234. ^ "Superevent info - S2401011k". LIGO. Retrieved 11 October 2024.
  235. ^ "Superevent info - S2401101ee". LIGO. Retrieved 1 November 2024.
  236. ^ "Superevent info - S2401102br". LIGO. Retrieved 2 November 2024.
  237. ^ "Superevent info - S2401102cy". LIGO. Retrieved 2 November 2024.
  238. ^ "Superevent info - S2401109p". LIGO. Retrieved 9 November 2024.
  239. ^ "Superevent info - S2401109bn". LIGO. Retrieved 9 November 2024.
  240. ^ "Superevent info - S2401110br". LIGO. Retrieved 10 November 2024.
  241. ^ "Superevent info - S2401111bn". LIGO. Retrieved 11 November 2024.
  242. ^ "Superevent info - S2401113p". LIGO. Retrieved 13 November 2024.
  243. ^ "Superevent info - S2401114y". LIGO. Retrieved 14 November 2024.
  244. ^ "Superevent info - S2401114bi". LIGO. Retrieved 15 November 2024.
  245. ^ "Superevent info - S2401116cq". LIGO. Retrieved 16 November 2024.
  246. ^ "Superevent info - S2401122a". LIGO. Retrieved 22 November 2024.
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