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| GrW 170823 , the SIMBAD biblio (57 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.16CEST14:57:22 |
Sort references on where and how often the object is cited
trying to find the most relevant references on this object.
More on score
| 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 |
|---|---|---|---|---|---|---|---|---|---|
| 2019ApJ...871..178G | 89 | X | 2 | 10 | 57 | Measurement accuracy of inspiraling eccentric neutron star and black hole binaries using gravitational waves. | GONDAN L. and KOCSIS B. | ||
| 2019MNRAS.484.3219M | 125 | X C | 2 | 14 | 8 | Evolution of dwarf galaxies hosting GW150914-like events. | MARASSI S., GRAZIANI L., GINOLFI M., et al. | ||
| 2019MNRAS.484.4216R | 103 | D | F | 4 | 10 | 35 | Constraints on binary black hole populations from LIGO-Virgo detections. | ROULET J. and ZALDARRIAGA M. | |
| 2019MNRAS.485..889S | 267 | X C | 5 | 11 | 176 | Merging black hole binaries with the SEVN code. | SPERA M., MAPELLI M., GIACOBBO N., et al. | ||
| 2019ApJ...875...59Y | 100 | D | C | 2 | 546 | 5 | Optical follow-up of gravitational-wave events During the second Advanced LIGO/VIRGO observing run with the DLT40 survey. | YANG S., SAND D.J., VALENTI S., et al. | |
| 2019ApJ...875..161A | 227 | D | X | 6 | 16 | 22 | Low-latency gravitational-wave alerts for multimessenger astronomy during the second Advanced LIGO and Virgo observing run. | ABBOTT B.P., ABBOTT R., ABBOTT T.D., et al. | |
| 2019MNRAS.487.2947D | 101 | F | 1 | 11 | 192 | Merging black holes in young star clusters. | DI CARLO U.N., GIACOBBO N., MAPELLI M., et al. | ||
| 2019ApJ...882...53V | 17 | D | 1 | 11 | ~ | Fermi-GBM follow-up of LIGO-Virgo binary black hole mergers: detection prospects. | VERES P., DAL CANTON T., BURNS E., et al. | ||
| 2019ApJ...882L..24A | 149 | X | 2 | 11 | 715 | Binary black hole population properties inferred from the first and second observing runs of Advanced LIGO and Advanced Virgo. | ABBOTT B.P., ABBOTT R., ABBOTT T.D., et al. | ||
| 2019ApJ...883L..24S | 167 | X F | 3 | 9 | ~ | The impact of metallicity evolution of the Universe on the maximum mass of LIGO binary black holes. | SAFARZADEH M. and FARR W.M. | ||
| 2019ApJ...886...25B | 84 | X | 2 | 4 | ~ | Constraining the fraction of binary black holes formed in isolation and young star clusters with gravitational-wave data. | BOUFFANAIS Y., MAPELLI M., GEROSA D., et al. | ||
| 2019ApJ...887...72L | 63 | D | X | 2 | 17 | 76 | Pulsational pair-instability supernovae. I. Pre-collapse evolution and pulsational mass ejection. | LEUNG S.-C., NOMOTO K. and BLINNIKOV S. | |
| 2019MNRAS.490.5210R | 109 | D | F | 3 | 10 | 92 | Searching for eccentricity: signatures of dynamical formation in the first gravitational-wave transient catalogue of LIGO and Virgo. | ROMERO-SHAW I.M., LASKY P.D. and THRANE E. | |
| 2020ApJ...890....8C | 17 | D | 1 | 16 | ~ | LIGO/Virgo sources from merging black holes in ultradwarf galaxies. | CONSELICE C.J., BHATAWDEKAR R., PALMESE A., et al. | ||
2020MNRAS.493.3264K 
|
145 | D | X | 4 | 22 | ~ | Electromagnetic counterparts to gravitational wave events from Gaia. | KOSTRZEWA-RUTKOWSKA Z., JONKER P.G., HODGKIN S.T., et al. | |
| 2020ApJ...892...64P | 17 | D | 1 | 18 | ~ | The origin of binary black hole mergers. | PIRAN Z. and PIRAN T. | ||
| 2020ApJ...893..100H | 60 | D | X | 2 | 12 | ~ | A joint Fermi-GBM and LIGO/Virgo analysis of compact binary mergers from the first and second gravitational-wave observing runs. | HAMBURG R., FLETCHER C., BURNS E., et al. | |
| 2020A&A...636A.104B | 74 | D | X | 2 | 22 | 329 | Evolutionary roads leading to low effective spins, high black hole masses, and O1/O2 rates for LIGO/Virgo binary black holes. | BELCZYNSKI K., KLENCKI J., FIELDS C.E., et al. | |
| 2020ApJ...895..128M | 85 | F | 1 | 10 | ~ | The low effective spin of binary black holes and implications for individual gravitational-wave events. | MILLER S., CALLISTER T.A. and FARR W.M. | ||
| 2020MNRAS.495L..81G | 17 | D | 1 | 8 | ~ | Cosmic archaeology with massive stellar black hole binaries. | GRAZIANI L., SCHNEIDER R., MARASSI S., et al. | ||
| 2020MNRAS.495..466W | 230 | D | X C | 5 | 17 | ~ | Measuring the eccentricity of binary black holes in GWTC-1 by using the inspiral-only waveform. | WU S., CAO Z. and ZHU Z.-H. | |
| 2020MNRAS.495.2475L | 62 | X | 1 | 2 | 38 | Gravitational waves from Population III binary black holes formed by dynamical capture. | LIU B. and BROMM V. | ||
| 2020MNRAS.496..182L | 17 | D | 13 | 10 | ~ | Multiband observation of LIGO/Virgo binary black hole mergers in the gravitational-wave transient catalog GWTC-1. | LIU C., SHAO L., ZHAO J., et al. | ||
| 2020ApJ...897..169N | 85 | C | 1 | 3 | ~ | A search for gravitational waves from binary mergers with a single observatory. | NITZ A.H., DENT T., DAVIES G.S., et al. | ||
| 2020ApJ...898L..10A | 60 | D | X | 2 | 11 | ~ | IceCube search for neutrinos coincident with compact binary mergers from LIGO-Virgo's first gravitational-wave transient catalog. | AARTSEN M.G., ACKERMANN M., ADAMS J., et al. | |
| 2020ApJ...899...26T | 20 | D | 1 | 20 | 73 | Spin evolution of stellar-mass black hole binaries in active galactic nuclei. | TAGAWA H., HAIMAN Z., BARTOS I., et al. | ||
| 2020ApJ...900...80U | 85 | C | 1 | 5 | ~ | Inferring parameters of GW170502: the loudest intermediate-mass black hole trigger in LIGO's O1/O2 data. | UDALL R., JANI K., LANGE J., et al. | ||
| 2020MNRAS.498..495D | 93 | C | 1 | 12 | 100 | Binary black holes in young star clusters: the impact of metallicity. | DI CARLO U.N., MAPELLI M., GIACOBBO N., et al. | ||
| 2020MNRAS.498.3946K | 17 | D | 1 | 11 | ~ | Chirp mass and spin of binary black holes from first star remnants. | KINUGAWA T., NAKAMURA T. and NAKANO H. | ||
| 2020A&A...641A..86H | 85 | C | 1 | 10 | ~ | Internal circulation in tidally locked massive binary stars: Consequences for double black hole formation. | HASTINGS B., LANGER N. and KOENIGSBERGER G. | ||
| 2020MNRAS.499L..53Y | 528 | D | X C F | 11 | 12 | ~ | Tests of weak equivalence principle with the gravitational wave signals in the LIGO-Virgo catalogue GWTC-1. | YANG S.-C., HAN W.-B. and WANG G. | |
| 2020MNRAS.499.3295R | 206 | D | C F | 7 | 11 | 218 | Bayesian inference for compact binary coalescences with BILBY: validation and application to the first LIGO-Virgo gravitational-wave transient catalogue. | ROMERO-SHAW I.M., TALBOT C., BISCOVEANU S., et al. | |
| 2021MNRAS.501..970S | 174 | X F | 3 | 10 | ~ | Are stellar-mass binary black hole mergers isotropically distributed? | STISKALEK R., VEITCH J. and MESSENGER C. | ||
| 2021ApJ...907L..48V | 322 | D | X | 8 | 11 | ~ | Search for black hole merger families. | VESKE D., SULLIVAN A.G., MARKA Z., et al. | |
| 2020RAA....20..183Y | 17 | D | 1 | 8 | ~ | Estimating up-limits of eccentricities for the binary black holes in the LIGO-Virgo catalog GWTC-1. | YUN Q.-Y., HAN W.-B., WANG G., et al. | ||
| 2021ApJ...909..116A | 61 | D | X | 2 | 11 | ~ | Search for low-energy electron antineutrinos in KamLAND associated with gravitational wave events. | ABE S., ASAMI S., GANDO A., et al. | |
| 2021ApJ...909..218A | 164 | D | X C | 3 | 13 | 210 | A gravitational-wave measurement of the Hubble constant following the second observing run of Advanced LIGO and Virgo. | ABBOTT B.P., ABBOTT R., ABBOTT T.D., et al. | |
| 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. | ||
| 2021MNRAS.505..663R | 89 | F | 1 | 17 | 41 | Chemically homogeneous evolution: a rapid population synthesis approach. | RILEY J., MANDEL I., MARCHANT P., et al. | ||
| 2021ApJ...918L..31M | 17 | D | 2 | 42 | ~ | Remnant black hole kicks and implications for hierarchical mergers. | MAHAPATRA P., GUPTA A., FAVATA 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. | ||
| 2022ApJ...924...80U | 242 | D | X | 6 | 13 | ~ | AGILE observations of the LIGO-Virgo gravitational-wave events of the GWTC-1 Catalog. | URSI A., VERRECCHIA F., PIANO G., et al. | |
| 2022ApJ...924..129Q | 18 | D | 1 | 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 | 19 | D | 1 | 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. | ||
| 2022ApJ...926L..28B | 90 | F | 1 | 17 | ~ | Constraints on Compact Dark Matter from Gravitational Wave Microlensing. | BASAK S., GANGULY A., HARIS K., et al. | ||
| 2022MNRAS.512.1127G | 18 | D | 2 | 11 | ~ | A pixelated approach to galaxy catalogue incompleteness: improving the dark siren measurement of the Hubble constant. | GRAY R., MESSENGER C. and VEITCH J. | ||
| 2022ApJ...928...75H | 90 | F | 2 | 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...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...935..127H | 108 | D | C | 2 | 11 | 1 | A Comprehensive Analysis of the Gravitational Wave Events with the Stacked Hilbert-Huang Transform: From Compact Binary Coalescence to Supernova. | HU C.-P., LIN L.C.-C., PAN K.-C., et al. | |
| 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. | ||
| 2022MNRAS.517.2403M | 735 | D | S X C F | 14 | 12 | ~ | Parameter estimation with the current generation of phenomenological waveform models applied to the black hole mergers of GWTC-1. | MATEU-LUCENA M., HUSA S., COLLEONI M., et al. | |
| 2022ApJ...941..179Q | 18 | D | 1 | 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. | ||
| 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...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. | ||
| 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. |
