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We present a search for prompt gamma-ray counterparts to compact binary coalescence gravitational wave (GW) candidates from Advanced LIGO's first observing run (O1). As demonstrated by the multimessenger observations of GW170817/GRB 170817A, electromagnetic and GW observations provide complementary information about the astrophysical source, and in the case of weaker candidates, may strengthen the case for an astrophysical origin. Here we investigate low-significance GW candidates from the O1 compact binary coalescence searches using the Fermi Gamma-Ray Burst Monitor (GBM), leveraging its all sky and broad energy coverage. Candidates are ranked and compared to background to measure the significance. Those with false alarm rates (FARs) of less than 10(-5) Hz (about one per day, yielding a total of 81 candidates) are used as the search sample for gamma-ray follow-up. No GW candidates were found to be coincident with gamma-ray transients independently identified by blind searches of the GBM data. In addition, GW candidate event times were followed up by a separate targeted search of GBM data. Among the resulting GBM events, the two with the lowest FARs were the gamma-ray transient GW150914-GBM presented in Connaughton et al. and a solar flare in chance coincidence with a GW candidate.
Burns, E., Goldstein, A., Hui, C.m., Blackburn, L., Briggs, M.s., Connaughton, V., et al. (2019). A Fermi gamma-ray burst monitor search for electromagnetic signals coincident with gravitational-wave candidates in advanced LIGO's first observing run. THE ASTROPHYSICAL JOURNAL, 871(1), 90 [10.3847/1538-4357/aaf726].
A Fermi gamma-ray burst monitor search for electromagnetic signals coincident with gravitational-wave candidates in advanced LIGO's first observing run
E. Burns;A. Goldstein;C. M. Hui;L. Blackburn;M. S. Briggs;V. Connaughton;R. Hamburg;D. Kocevski;P. Veres;C. A. Wilson-Hodge;E. Bissaldi;W. H. Cleveland;M. M. Giles;B. Mailyan;C. A. Meegan;W. A. Paciesas;S. Poolakkil;R. D. Preece;J. L. Racusin;O. J. Roberts;A. von Kienlin;B. P. Abbott;R. Abbott;T. D. Abbott;F. Acernese;K. Ackley;C. Adams;T. Adams;P. Addesso;R. X. Adhikari;V. B. Adya;C. Affeldt;B. Agarwal;M. Agathos;K. Agatsuma;N. Aggarwal;O. D. Aguiar;L. Aiello;A. Ain;P. Ajith;B. Allen;G. Allen;A. Allocca;M. A. Aloy;P. A. Altin;A. Amato;A. Ananyeva;S. B. Anderson;W. G. Anderson;S. V. Angelova;S. Antier;S. Appert;K. Arai;M. C. Araya;J. S. Areeda;M. Arène;N. Arnaud;K. G. Arun;S. Ascenzi;G. Ashton;M. Ast;S. M. Aston;P. Astone;D. V. Atallah;F. Aubin;P. Aufmuth;C. Aulbert;K. AultONeal;C. Austin;A. Avila-Alvarez;S. Babak;P. Bacon;F. Badaracco;M. K. M. Bader;S. Bae;P. T. Baker;F. Baldaccini;G. Ballardin;S. W. Ballmer;S. Banagiri;J. C. Barayoga;S. E. Barclay;B. C. Barish;D. Barker;K. Barkett;S. Barnum;F. Barone;B. Barr;L. Barsotti;M. Barsuglia;D. Barta;J. Bartlett;I. Bartos;R. Bassiri;A. Basti;J. C. Batch;M. Bawaj;J. C. Bayley;M. Bazzan;B. Bécsy;C. Beer;M. Bejger;I. Belahcene;A. S. Bell;D. Beniwal;M. Bensch;B. K. Berger;G. Bergmann;S. Bernuzzi;J. J. Bero;C. P. L. Berry;D. Bersanetti;A. Bertolini;J. Betzwieser;R. Bhandare;I. A. Bilenko;S. A. Bilgili;G. Billingsley;C. R. Billman;J. Birch;R. Birney;O. Birnholtz;S. Biscans;S. Biscoveanu;A. Bisht;M. Bitossi;M. A. Bizouard;J. K. Blackburn;J. Blackman;C. D. Blair;D. G. Blair;R. M. Blair;S. Bloemen;O. Bock;N. Bode;M. Boer;Y. Boetzel;G. Bogaert;A. Bohe;F. Bondu;E. Bonilla;R. Bonnand;P. Booker;B. A. Boom;C. D. Booth;R. Bork;V. Boschi;S. Bose;K. Bossie;V. Bossilkov;J. Bosveld;Y. Bouffanais;A. Bozzi;C. Bradaschia;P. R. Brady;A. Bramley;M. Branchesi;J. E. Brau;T. Briant;F. Brighenti;A. Brillet;M. Brinkmann;V. Brisson;P. Brockill;A. F. Brooks;D. D. Brown;S. Brunett;C. C. Buchanan;A. Buikema;T. Bulik;H. J. Bulten;A. Buonanno;D. Buskulic;C. Buy;R. L. Byer;M. Cabero;L. Cadonati;G. Cagnoli;C. Cahillane;J. Calderón Bustillo;T. A. Callister;E. Calloni;J. B. Camp;M. Canepa;P. Canizares;K. C. Cannon;H. Cao;J. Cao;C. D. Capano;E. Capocasa;F. Carbognani;S. Caride;M. F. Carney;J. Casanueva Diaz;C. Casentini;S. Caudill;M. Cavaglià;F. Cavalier;R. Cavalieri;G. Cella;C. B. Cepeda;P. Cerdá-Durán;G. Cerretani;E. Cesarini;O. Chaibi;S. J. Chamberlin;M. Chan;S. Chao;P. Charlton;E. Chase;E. Chassande-Mottin;D. Chatterjee;B. D. Cheeseboro;H. Y. Chen;X. Chen;Y. Chen;H. -P. Cheng;H. Y. Chia;A. Chincarini;A. Chiummo;T. Chmiel;H. S. Cho;M. Cho;J. H. Chow;N. Christensen;Q. Chu;A. J. K. Chua;S. Chua;K. W. Chung;S. Chung;G. Ciani;A. A. Ciobanu;R. Ciolfi;F. Cipriano;C. E. Cirelli;A. Cirone;F. Clara;J. A. Clark;P. Clearwater;F. Cleva;C. Cocchieri;E. Coccia;P. -F. Cohadon;D. Cohen;A. Colla;C. G. Collette;C. Collins;L. R. Cominsky;M. Constancio Jr.;L. Conti;S. J. Cooper;P. Corban;T. R. Corbitt;I. Cordero-Carrión;K. R. Corley;N. Cornish;A. Corsi;S. Cortese;C. A. Costa;R. Cotesta;M. W. Coughlin;S. B. Coughlin;J. -P. Coulon;S. T. Countryman;P. Couvares;P. B. Covas;E. E. Cowan;D. M. Coward;M. J. Cowart;D. C. Coyne;R. Coyne;J. D. E. Creighton;T. D. Creighton;J. Cripe;S. G. Crowder;T. J. Cullen;A. Cumming;L. Cunningham;E. Cuoco;T. Dal Canton;G. Dálya;S. L. Danilishin;S. D’Antonio;K. Danzmann;A. Dasgupta;C. F. Da Silva Costa;V. Dattilo;I. Dave;M. Davier;D. Davis;E. J. Daw;B. Day;D. DeBra;M. Deenadayalan;J. Degallaix;M. De Laurentis;S. Deléglise;W. Del Pozzo;N. Demos;T. Denker;T. Dent;R. De Pietri;J. Derby;V. Dergachev;R. De Rosa;C. De Rossi;R. DeSalvo;O. de Varona;S. Dhurandhar;M. C. Díaz;L. Di Fiore;M. Di Giovanni;T. Di Girolamo;A. Di Lieto;B. Ding;S. Di Pace;I. Di Palma;F. Di Renzo;A. Dmitriev;Z. Doctor;V. Dolique;F. Donovan;K. L. Dooley;S. Doravari;I. Dorrington;M. Dovale Álvarez;T. P. Downes;M. Drago;C. Dreissigacker;J. C. Driggers;Z. Du;P. Dupej;S. E. Dwyer;P. J. Easter;T. B. Edo;M. C. Edwards;A. Effler;H. -B. Eggenstein;P. Ehrens;J. Eichholz;S. S. Eikenberry;M. Eisenmann;R. A. Eisenstein;R. C. Essick;H. Estelles;D. Estevez;Z. B. Etienne;T. Etzel;M. Evans;T. M. Evans;V. Fafone;H. Fair;S. Fairhurst;X. Fan;S. Farinon;B. Farr;W. M. Farr;E. J. Fauchon-Jones;M. Favata;M. Fays;C. Fee;H. Fehrmann;J. Feicht;M. M. Fejer;F. Feng;A. Fernandez-Galiana;I. Ferrante;E. C. Ferreira;F. Ferrini;F. Fidecaro;I. Fiori;D. Fiorucci;M. Fishbach;R. P. Fisher;J. M. Fishner;M. Fitz-Axen;R. Flaminio;M. Fletcher;H. Fong;J. A. Font;P. W. F. Forsyth;S. S. Forsyth;J. -D. Fournier;S. Frasca;F. Frasconi;Z. Frei;A. Freise;R. Frey;V. Frey;P. Fritschel;V. V. Frolov;P. Fulda;M. Fyffe;H. A. Gabbard;B. U. Gadre;S. M. Gaebel;J. R. Gair;L. Gammaitoni;M. R. Ganija;S. G. Gaonkar;A. Garcia;C. García-Quirós;F. Garufi;B. Gateley;S. Gaudio;G. Gaur;V. Gayathri;G. Gemme;E. Genin;A. Gennai;D. George;J. George;L. Gergely;V. Germain;S. Ghonge;Abhirup Ghosh;Archisman Ghosh;S. Ghosh;B. Giacomazzo;J. A. Giaime;K. D. Giardina;A. Giazotto;K. Gill;G. Giordano;L. Glover;E. Goetz;R. Goetz;B. Goncharov;G. González;J. M. Gonzalez Castro;A. Gopakumar;M. L. Gorodetsky;S. E. Gossan;M. Gosselin;R. Gouaty;A. Grado;C. Graef;M. Granata;A. Grant;S. Gras;C. Gray;G. Greco;A. C. Green;R. Green;E. M. Gretarsson;P. Groot;H. Grote;S. Grunewald;P. Gruning;G. M. Guidi;H. K. Gulati;X. Guo;A. Gupta;M. K. Gupta;K. E. Gushwa;E. K. Gustafson;R. Gustafson;O. Halim;B. R. Hall;E. D. Hall;E. Z. Hamilton;H. F. Hamilton;G. Hammond;M. Haney;M. M. Hanke;J. Hanks;C. Hanna;M. D. Hannam;O. A. Hannuksela;J. Hanson;T. Hardwick;J. Harms;G. M. Harry;I. W. Harry;M. J. Hart;C. -J. Haster;K. Haughian;J. Healy;A. Heidmann;M. C. Heintze;H. Heitmann;P. Hello;G. Hemming;M. Hendry;I. S. Heng;J. Hennig;A. W. Heptonstall;F. J. Hernandez;M. Heurs;S. Hild;T. Hinderer;D. Hoak;S. Hochheim;D. Hofman;N. A. Holland;K. Holt;D. E. Holz;P. Hopkins;C. Horst;J. Hough;E. A. Houston;E. J. Howell;A. Hreibi;E. A. Huerta;D. Huet;B. Hughey;M. Hulko;S. Husa;S. H. Huttner;T. Huynh-Dinh;A. Iess;N. Indik;C. Ingram;R. Inta;G. Intini;H. N. Isa;J. -M. Isac;M. Isi;B. R. Iyer;K. Izumi;T. Jacqmin;K. Jani;P. Jaranowski;D. S. Johnson;W. W. Johnson;D. I. Jones;R. Jones;R. J. G. Jonker;L. Ju;J. Junker;C. V. Kalaghatgi;V. Kalogera;B. Kamai;S. Kandhasamy;G. Kang;J. B. Kanner;S. J. Kapadia;S. Karki;K. S. Karvinen;M. Kasprzack;M. Katolik;S. Katsanevas;E. Katsavounidis;W. Katzman;S. Kaufer;K. Kawabe;N. V. Keerthana;F. Kéfélian;D. Keitel;A. J. Kemball;R. Kennedy;J. S. Key;F. Y. Khalili;B. Khamesra;H. Khan;I. Khan;S. Khan;Z. Khan;E. A. Khazanov;N. Kijbunchoo;Chunglee Kim;J. C. Kim;K. Kim;W. Kim;W. S. Kim;Y. -M. Kim;E. J. King;P. J. King;M. Kinley-Hanlon;R. Kirchhoff;J. S. Kissel;L. Kleybolte;S. Klimenko;T. D. Knowles;P. Koch;S. M. Koehlenbeck;S. Koley;V. Kondrashov;A. Kontos;M. Korobko;W. Z. Korth;I. Kowalska;D. B. Kozak;C. Krämer;V. Kringel;B. Krishnan;A. Królak;G. Kuehn;P. Kumar;R. Kumar;S. Kumar;L. Kuo;A. Kutynia;S. Kwang;B. D. Lackey;K. H. Lai;M. Landry;R. N. Lang;J. Lange;B. Lantz;R. K. Lanza;A. Lartaux-Vollard;P. D. Lasky;M. Laxen;A. Lazzarini;C. Lazzaro;P. Leaci;S. Leavey;C. H. Lee;H. K. Lee;H. M. Lee;H. W. Lee;K. Lee;J. Lehmann;A. Lenon;M. Leonardi;N. Leroy;N. Letendre;Y. Levin;J. Li;T. G. F. Li;X. Li;S. D. Linker;T. B. Littenberg;J. Liu;X. Liu;R. K. L. Lo;N. A. Lockerbie;L. T. London;A. Longo;M. Lorenzini;V. Loriette;M. Lormand;G. Losurdo;J. D. Lough;C. O. Lousto;G. Lovelace;H. Lück;D. Lumaca;A. P. Lundgren;R. Lynch;Y. Ma;R. Macas;S. Macfoy;B. Machenschalk;M. MacInnis;D. M. Macleod;I. Magaña Hernandez;F. Magaña-Sandoval;L. Magaña Zertuche;R. M. Magee;E. Majorana;I. Maksimovic;N. Man;V. Mandic;V. Mangano;G. L. Mansell;M. Manske;M. Mantovani;F. Marchesoni;F. Marion;S. Márka;Z. Márka;C. Markakis;A. S. Markosyan;A. Markowitz;E. Maros;A. Marquina;F. Martelli;L. Martellini;I. W. Martin;R. M. Martin;D. V. Martynov;K. Mason;E. Massera;A. Masserot;T. J. Massinger;M. Masso-Reid;S. Mastrogiovanni;A. Matas;F. Matichard;L. Matone;N. Mavalvala;N. Mazumder;J. J. McCann;R. McCarthy;D. E. McClelland;S. McCormick;L. McCuller;S. C. McGuire;J. McIver;D. J. McManus;T. McRae;S. T. McWilliams;D. Meacher;G. D. Meadors;M. Mehmet;J. Meidam;E. Mejuto-Villa;A. Melatos;G. Mendell;D. Mendoza-Gandara;R. A. Mercer;L. Mereni;E. L. Merilh;M. Merzougui;S. Meshkov;C. Messenger;C. Messick;R. Metzdorff;P. M. Meyers;H. Miao;C. Michel;H. Middleton;E. E. Mikhailov;L. Milano;A. L. Miller;A. Miller;B. B. Miller;J. Miller;M. Millhouse;J. Mills;M. C. Milovich-Goff;O. Minazzoli;Y. Minenkov;J. Ming;C. Mishra;S. Mitra;V. P. Mitrofanov;G. Mitselmakher;R. Mittleman;D. Moffa;K. Mogushi;M. Mohan;S. R. P. Mohapatra;M. Montani;C. J. Moore;D. Moraru;G. Moreno;S. Morisaki;B. Mours;C. M. Mow-Lowry;G. Mueller;A. W. Muir;Arunava Mukherjee;D. Mukherjee;S. Mukherjee;N. Mukund;A. Mullavey;J. Munch;E. A. Muñiz;M. Muratore;P. G. Murray;A. Nagar;K. Napier;I. Nardecchia;L. Naticchioni;R. K. Nayak;J. Neilson;G. Nelemans;T. J. N. Nelson;M. Nery;A. Neunzert;L. Nevin;J. M. Newport;K. Y. Ng;S. Ng;P. Nguyen;T. T. Nguyen;D. Nichols;A. B. Nielsen;S. Nissanke;A. Nitz;F. Nocera;D. Nolting;C. North;L. K. Nuttall;M. Obergaulinger;J. Oberling;B. D. O’Brien;G. D. O’Dea;G. H. Ogin;J. J. Oh;S. H. Oh;F. Ohme;H. Ohta;M. A. Okada;M. Oliver;P. Oppermann;Richard J. Oram;B. O’Reilly;R. Ormiston;L. F. Ortega;R. O’Shaughnessy;S. Ossokine;D. J. Ottaway;H. Overmier;B. J. Owen;A. E. Pace;G. Pagano;J. Page;M. A. Page;A. Pai;S. A. Pai;J. R. Palamos;O. Palashov;C. Palomba;A. Pal-Singh;Howard Pan;Huang-Wei Pan;B. Pang;P. T. H. Pang;C. Pankow;F. Pannarale;B. C. Pant;F. Paoletti;A. Paoli;M. A. Papa;A. Parida;W. Parker;D. Pascucci;A. Pasqualetti;R. Passaquieti;D. Passuello;M. Patil;B. Patricelli;B. L. Pearlstone;C. Pedersen;M. Pedraza;R. Pedurand;L. Pekowsky;A. Pele;S. Penn;C. J. Perez;A. Perreca;L. M. Perri;H. P. Pfeiffer;M. Phelps;K. S. Phukon;O. J. Piccinni;M. Pichot;F. Piergiovanni;V. Pierro;G. Pillant;L. Pinard;I. M. Pinto;M. Pirello;M. Pitkin;R. Poggiani;P. Popolizio;E. K. Porter;L. Possenti;A. Post;J. Powell;J. Prasad;J. W. W. Pratt;G. Pratten;V. Predoi;T. Prestegard;M. Principe;S. Privitera;G. A. Prodi;L. G. Prokhorov;O. Puncken;M. Punturo;P. Puppo;M. Pürrer;H. Qi;V. Quetschke;E. A. Quintero;R. Quitzow-James;F. J. Raab;D. S. Rabeling;H. Radkins;P. Raffai;S. Raja;C. Rajan;B. Rajbhandari;M. Rakhmanov;K. E. Ramirez;A. Ramos-Buades;Javed Rana;P. Rapagnani;V. Raymond;M. Razzano;J. Read;T. Regimbau;L. Rei;S. Reid;D. H. Reitze;W. Ren;F. Ricci;P. M. Ricker;K. Riles;M. Rizzo;N. A. Robertson;R. Robie;F. Robinet;T. Robson;A. Rocchi;L. Rolland;J. G. Rollins;V. J. Roma;R. Romano;C. L. Romel;J. H. Romie;D. Rosińska;M. P. Ross;S. Rowan;A. Rüdiger;P. Ruggi;G. Rutins;K. Ryan;S. Sachdev;T. Sadecki;M. Sakellariadou;L. Salconi;M. Saleem;F. Salemi;A. Samajdar;L. Sammut;L. M. Sampson;E. J. Sanchez;L. E. Sanchez;N. Sanchis-Gual;V. Sandberg;J. R. Sanders;N. Sarin;B. Sassolas;B. S. Sathyaprakash;P. R. Saulson;O. Sauter;R. L. Savage;A. Sawadsky;P. Schale;M. Scheel;J. Scheuer;P. Schmidt;R. Schnabel;R. M. S. Schofield;A. Schönbeck;E. Schreiber;D. Schuette;B. W. Schulte;B. F. Schutz;S. G. Schwalbe;J. Scott;S. M. Scott;E. Seidel;D. Sellers;A. S. Sengupta;D. Sentenac;V. Sequino;A. Sergeev;Y. Setyawati;D. A. Shaddock;T. J. Shaffer;A. A. Shah;M. S. Shahriar;M. B. Shaner;L. Shao;B. Shapiro;P. Shawhan;H. Shen;D. H. Shoemaker;D. M. Shoemaker;K. Siellez;X. Siemens;M. Sieniawska;D. Sigg;A. D. Silva;L. P. Singer;A. Singh;A. Singhal;A. M. Sintes;B. J. J. Slagmolen;T. J. Slaven-Blair;B. Smith;J. R. Smith;R. J. E. Smith;S. Somala;E. J. Son;B. Sorazu;F. Sorrentino;T. Souradeep;A. P. Spencer;A. K. Srivastava;K. Staats;C. Stachie;M. Steinke;J. Steinlechner;S. Steinlechner;D. Steinmeyer;B. Steltner;S. P. Stevenson;D. Stocks;R. Stone;D. J. Stops;K. A. Strain;G. Stratta;S. E. Strigin;A. Strunk;R. Sturani;A. L. Stuver;T. Z. Summerscales;L. Sun;S. Sunil;J. Suresh;P. J. Sutton;B. L. Swinkels;M. J. Szczepańczyk;M. Tacca;S. C. Tait;C. Talbot;D. Talukder;D. B. Tanner;M. Tápai;A. Taracchini;J. D. Tasson;J. A. Taylor;R. Taylor;S. V. Tewari;T. Theeg;F. Thies;E. G. Thomas;M. Thomas;P. Thomas;K. A. Thorne;E. Thrane;S. Tiwari;V. Tiwari;K. V. Tokmakov;K. Toland;M. Tonelli;Z. Tornasi;A. Torres-Forné;C. I. Torrie;D. Töyrä;F. Travasso;G. Traylor;J. Trinastic;M. C. Tringali;L. Trozzo;K. W. Tsang;M. Tse;R. Tso;D. Tsuna;L. Tsukada;D. Tuyenbayev;K. Ueno;D. Ugolini;A. L. Urban;S. A. Usman;H. Vahlbruch;G. Vajente;G. Valdes;N. van Bakel;M. van Beuzekom;J. F. J. van den Brand;C. Van Den Broeck;D. C. Vander-Hyde;L. van der Schaaf;J. V. van Heijningen;A. A. van Veggel;M. Vardaro;V. Varma;S. Vass;M. Vasúth;A. Vecchio;G. Vedovato;J. Veitch;P. J. Veitch;K. Venkateswara;G. Venugopalan;D. Verkindt;F. Vetrano;A. Viceré;A. D. Viets;S. Vinciguerra;D. J. Vine;J. -Y. Vinet;S. Vitale;T. Vo;H. Vocca;C. Vorvick;S. P. Vyatchanin;A. R. Wade;L. E. Wade;M. Wade;R. Walet;M. Walker;L. Wallace;S. Walsh;G. Wang;H. Wang;J. Z. Wang;W. H. Wang;Y. F. Wang;R. L. Ward;J. Warner;M. Was;J. Watchi;B. Weaver;L. -W. Wei;M. Weinert;A. J. Weinstein;R. Weiss;F. Wellmann;L. Wen;E. K. Wessel;P. Weßels;J. Westerweck;K. Wette;J. T. Whelan;B. F. Whiting;C. Whittle;D. Wilken;D. Williams;R. D. Williams;A. R. Williamson;J. L. Willis;B. Willke;M. H. Wimmer;W. Winkler;C. C. Wipf;H. Wittel;G. Woan;J. Woehler;J. K. Wofford;W. K. Wong;J. Worden;J. L. Wright;D. S. Wu;D. M. Wysocki;S. Xiao;W. Yam;H. Yamamoto;C. C. Yancey;L. Yang;M. J. Yap;M. Yazback;Hang Yu;Haocun Yu;M. Yvert;A. Zadrożny;M. Zanolin;T. Zelenova;J. -P. Zendri;M. Zevin;J. Zhang;L. Zhang;M. Zhang;T. Zhang;Y. -H. Zhang;C. Zhao;M. Zhou;Z. Zhou;S. J. Zhu;X. J. Zhu;M. E. Zucker;J. Zweizig
2019-01-01
Abstract
We present a search for prompt gamma-ray counterparts to compact binary coalescence gravitational wave (GW) candidates from Advanced LIGO's first observing run (O1). As demonstrated by the multimessenger observations of GW170817/GRB 170817A, electromagnetic and GW observations provide complementary information about the astrophysical source, and in the case of weaker candidates, may strengthen the case for an astrophysical origin. Here we investigate low-significance GW candidates from the O1 compact binary coalescence searches using the Fermi Gamma-Ray Burst Monitor (GBM), leveraging its all sky and broad energy coverage. Candidates are ranked and compared to background to measure the significance. Those with false alarm rates (FARs) of less than 10(-5) Hz (about one per day, yielding a total of 81 candidates) are used as the search sample for gamma-ray follow-up. No GW candidates were found to be coincident with gamma-ray transients independently identified by blind searches of the GBM data. In addition, GW candidate event times were followed up by a separate targeted search of GBM data. Among the resulting GBM events, the two with the lowest FARs were the gamma-ray transient GW150914-GBM presented in Connaughton et al. and a solar flare in chance coincidence with a GW candidate.
Burns, E., Goldstein, A., Hui, C.m., Blackburn, L., Briggs, M.s., Connaughton, V., et al. (2019). A Fermi gamma-ray burst monitor search for electromagnetic signals coincident with gravitational-wave candidates in advanced LIGO's first observing run. THE ASTROPHYSICAL JOURNAL, 871(1), 90 [10.3847/1538-4357/aaf726].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/251022
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simulazione ASN
Il report seguente simula gli indicatori relativi alla propria produzione scientifica in relazione alle soglie ASN 2023-2025 del proprio SC/SSD. Si ricorda che il superamento dei valori soglia (almeno 2 su 3) è requisito necessario ma non sufficiente al conseguimento dell'abilitazione. La simulazione si basa sui dati IRIS e sugli indicatori bibliometrici alla data indicata e non tiene conto di eventuali periodi di congedo obbligatorio, che in sede di domanda ASN danno diritto a incrementi percentuali dei valori. La simulazione può differire dall'esito di un’eventuale domanda ASN sia per errori di catalogazione e/o dati mancanti in IRIS, sia per la variabilità dei dati bibliometrici nel tempo. Si consideri che Anvur calcola i valori degli indicatori all'ultima data utile per la presentazione delle domande.
La presente simulazione è stata realizzata sulla base delle specifiche raccolte sul tavolo ER del Focus Group IRIS coordinato dall’Università di Modena e Reggio Emilia e delle regole riportate nel DM 589/2018 e allegata Tabella A. Cineca, l’Università di Modena e Reggio Emilia e il Focus Group IRIS non si assumono alcuna responsabilità in merito all’uso che il diretto interessato o terzi faranno della simulazione. Si specifica inoltre che la simulazione contiene calcoli effettuati con dati e algoritmi di pubblico dominio e deve quindi essere considerata come un mero ausilio al calcolo svolgibile manualmente o con strumenti equivalenti.