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GrW 190517 055101 , the SIMBAD biblio (43 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.24CEST22:04:13 |
Bibcode/DOI | Score |
in Title|Abstract| Keywords |
in a table | in teXt, Caption, ... | Nb occurence | Nb objects in ref |
Citations (from ADS) |
Title | First 3 Authors |
---|---|---|---|---|---|---|---|---|---|
2021MNRAS.502.3879F | 113 | A | X | 3 | 7 | ~ | Implications of recoil kicks for black hole mergers from LIGO/Virgo catalogs. | FRAGIONE G. and LOEB A. | |
2021ApJ...913L...7A | 29 | D | 1 | 50 | 622 | Population properties of compact objects from the second LIGO-Virgo Gravitational-Wave Transient Catalog. | ABBOTT R., ABBOTT T.D., ABRAHAM S., et al. | ||
2021ApJ...915L..35K | 142 | X | 3 | 9 | 107 | Evidence for hierarchical black hole mergers in the second LIGO-Virgo gravitational wave catalog. | KIMBALL C., TALBOT C., BERRY C.P.L., et al. | ||
2021ApJ...918L..31M | 192 | D | X | 5 | 42 | ~ | Remnant black hole kicks and implications for hierarchical mergers. | MAHAPATRA P., GUPTA A., FAVATA M., et al. | |
2021ApJ...918...78A | 17 | D | 1 | 42 | ~ | Search for neutrinos in coincidence with gravitational wave events from the LIGO-Virgo O3a observing run with the Super-Kamiokande detector. | ABE K., BRONNER C., HAYATO Y., et al. | ||
2021MNRAS.507.1401B | 17 | D | 1 | 29 | 17 | DDOTI observations of gravitational-wave sources discovered in O3. | BECERRA R.L., DICHIARA S., WATSON A.M., et al. | ||
2021MNRAS.508.3910C | 17 | D | 1 | 53 | 10 | Search for gamma-ray bursts and gravitational wave electromagnetic counterparts with High Energy X-ray Telescope of Insight-HXMT. | CAI C., XIONG S.L., LI C.K., et al. | ||
2021ApJ...920L..42G | 17 | D | 1 | 47 | 27 | Black hole mergers of AGN origin in LIGO-Virgo's O1-O3a observing periods. | GAYATHRI V., YANG Y., TAGAWA H., et al. | ||
2021ApJ...921L...2O | 22 | D | 1 | 7 | 38 | The implications of high BH spins on the origin of BH-BH mergers. | OLEJAK A. and BELCZYNSKI K. | ||
2021ApJ...922L...5C | 876 | X C | 19 | 11 | 63 | Who ordered that? Unequal-mass binary black hole mergers have larger effective spins. | CALLISTER T.A., HASTER C.-J., NG K.K.Y., et al. | ||
2021ApJ...922...76N | 19 | D | 2 | 58 | 124 | 3-OGC: catalog of gravitational waves from compact-binary mergers. | NITZ A.H., CAPANO C.D., KUMAR S., et al. | ||
2022ApJ...924..129Q | 376 | D | X C | 8 | 58 | 16 | On the angular momentum transport efficiency within the star constrained from gravitational-wave observations. | QIN Y., WANG Y.-Z., WU D.-H., et al. | |
2022A&A...657L...8B | 162 | A | X C | 3 | 15 | 22 | Probing the progenitors of spinning binary black-hole mergers with long gamma-ray bursts. | BAVERA S.S., FRAGOS T., ZAPARTAS E., et al. | |
2022A&A...659A..84A | 19 | D | 1 | 23 | 43 | Search for intermediate-mass black hole binaries in the third observing run of Advanced LIGO and Advanced Virgo. | ABBOTT R., ABBOTT T.D., ACERNESE F., et al. | ||
2022ApJ...928...75H | 493 | X F | 10 | 48 | ~ | Understanding How Fast Black Holes Spin by Analyzing Data from the Second Gravitational-wave Catalogue. | HOY C., FAIRHURST S., HANNAM M., et al. | ||
2022ApJ...929L..26F | 45 | X | 1 | 38 | 29 | Apples and Oranges: Comparing Black Holes in X-Ray Binaries and Gravitational-wave Sources. | FISHBACH M. and KALOGERA V. | ||
2022ApJ...930...26S | 180 | X C | 3 | 10 | 11 | Stable Mass Transfer Can Explain Massive Binary Black Hole Mergers with a High-spin Component. | SHAO Y. and LI X.-D. | ||
2022ApJ...930..139Z | 18 | D | 1 | 68 | ~ | Search for the Birefringence of Gravitational Waves with the Third Observing Run of Advanced LIGO-Virgo. | ZHAO Z.-C., CAO Z. and WANG S. | ||
2022ApJ...931...79P | 269 | X C | 5 | 4 | ~ | The Imprint of Superradiance on Hierarchical Black Hole Mergers. | PAYNE E., SUN L., KREMER K., et al. | ||
2022ApJ...933...17A | 18 | D | 1 | 82 | 2 | Are Binary Black Hole Mergers and Long Gamma-Ray Bursts Drawn from the Same Black Hole Population? | ARCIER B. and ATTEIA J.-L. | ||
2022ApJ...933...86Z | 365 | X C | 7 | 4 | 29 | Suspicious Siblings: The Distribution of Mass and Spin across Component Black Holes in Isolated Binary Evolution. | ZEVIN M. and BAVERA S.S. | ||
2022MNRAS.515.5718V | 18 | D | 1 | 45 | ~ | Rapid source classification and distance estimation for compact binary mergers with PyCBC live. | VILLA-ORTEGA V., DENT T. and CURIEL BARROSO A. | ||
2022MNRAS.516L.107Z | 45 | X | 1 | 5 | ~ | Gravitational-wave bursts from spin-precessing black holes in binary systems. | ZHANG C., HAN W.-B. and YANG S.-C. | ||
2022ApJ...937L..13C | 93 | X | 2 | 8 | 29 | No Evidence that the Majority of Black Holes in Binaries Have Zero Spin. | CALLISTER T.A., MILLER S.J., CHATZIIOANNOU K., et al. | ||
2022ApJ...938...45B | 46 | X | 1 | 11 | 14 | Signatures of Mass Ratio Reversal in Gravitational Waves from Merging Binary Black Holes. | BROEKGAARDEN F.S., STEVENSON S. and THRANE E. | ||
2022ApJ...938..157K | 18 | D | 2 | 47 | ~ | Deep Learning-based Search for Microlensing Signature from Binary Black Hole Events in GWTC-1 and -2. | KIM K., LEE J., HANNUKSELA O.A., et al. | ||
2022ApJ...941..179Q | 448 | A | D | X C | 10 | 32 | 3 | Searching for Candidates of Coalescing Binary Black Holes Formed through Chemically Homogeneous Evolution in GWTC-3. | QIN Y., WANG Y.-Z., BAVERA S.S., et al. |
2022ApJ...941L..39W | 18 | D | 1 | 69 | 5 | Potential Subpopulations and Assembling Tendency of the Merging Black Holes. | WANG Y.-Z., LI Y.-J., VINK J.S., et al. | ||
2023ApJ...942...99G | 19 | D | 1 | 92 | 13 | A Light in the Dark: Searching for Electromagnetic Counterparts to Black Hole-Black Hole Mergers in LIGO/Virgo O3 with the Zwicky Transient Facility. | GRAHAM M.J., McKERNAN B., FORD K.E.S., et al. | ||
2023ApJ...944...80A | 19 | D | 1 | 82 | ~ | IceCube Search for Neutrinos Coincident with Gravitational Wave Events from LIGO/Virgo Run O3. | ABBASI R., ACKERMANN M., ADAMS J., et al. | ||
2023MNRAS.520.5259A | 51 | X | 1 | 4 | 17 | Isolated and dynamical black hole mergers with B-POP: the role of star formation and dynamics, star cluster evolution, natal kicks, mass and spins, and hierarchical mergers. | ARCA SEDDA M., MAPELLI M., BENACQUISTA M., et al. | ||
2023A&A...671A..62Q | 233 | X C | 4 | 11 | ~ | Merging binary black holes formed through double-core evolution. | QIN Y., HU R.-C., MEYNET G., et al. | ||
2023ApJ...946...19D | 47 | X | 1 | 64 | 10 | A Systematic View of Ten New Black Hole Spins. | DRAGHIS P.A., MILLER J.M., ZOGHBI A., et al. | ||
2023ApJ...946...59N | 19 | D | 2 | 103 | 5 | 4-OGC: Catalog of Gravitational Waves from Compact Binary Mergers. | NITZ A.H., KUMAR S., WANG Y.-F., et al. | ||
2023ApJ...949...76A | 20 | D | 1 | 66 | 120 | Constraints on the Cosmic Expansion History from GWTC-3. | ABBOTT R., ABE H., ACERNESE F., et al. | ||
2023MNRAS.523.5972H | 19 | D | 1 | 68 | ~ | Inferring the astrophysical population of gravitational wave sources in the presence of noise transients. | HEINZEL J., TALBOT C., ASHTON G., et al. | ||
2023ApJ...952...91A | 112 | D | C | 2 | 12 | ~ | Search for Ultra-high-energy Photons from Gravitational Wave Sources with the Pierre Auger Observatory. | ABDUL HALIM A., ABREU P., AGLIETTA M., et al. | |
2023MNRAS.525.4321L | 47 | X | 1 | 4 | ~ | Revisiting the properties of GW190814 and its formation history. | LYU F., YUAN L., WU D.H., et al. | ||
2023ApJ...959...96A | 19 | D | 1 | 94 | ~ | A Search for IceCube Sub-TeV Neutrinos Correlated with Gravitational-wave Events Detected By LIGO/Virgo. | ABBASI R., ACKERMANN M., ADAMS J., et al. | ||
2024ApJ...962...19I | 20 | D | 1 | 57 | ~ | The Directional Isotropy of LIGO-Virgo Binaries. | ISI M., FARR W.M. and VARMA V. | ||
2024A&A...682A.167M | 100 | F | 1 | 44 | ~ | ICAROGW: A python package for inference of astrophysical population properties of noisy, heterogeneous, and incomplete observations. | MASTROGIOVANNI S., PIERRA G., PERRIES S., et al. | ||
2024ApJ...964L...6A | 100 | C | 1 | 8 | ~ | Which Black Hole Is Spinning? Probing the Origin of Black Hole Spin with Gravitational Waves. | ADAMCEWICZ C., GALAUDAGE S., LASKY P.D., et al. | ||
2024ApJ...964..149F | 20 | D | 4 | 88 | ~ | A Joint Fermi-GBM and Swift-BAT Analysis of Gravitational-wave Candidates from the Third Gravitational-wave Observing Run. | FLETCHER C., WOOD J., HAMBURG R., et al. |