Attenzione: i dati modificati non sono ancora stati salvati. Per confermare inserimenti o cancellazioni di voci è necessario confermare con il tasto SALVA/INSERISCI in fondo alla pagina
Soft gamma repeaters (SGRs) and anomalous X-ray pulsars (AXPs) are thought to be magnetars: neutron stars powered by extreme magnetic fields. These rare objects are characterized by repeated and sometimes spectacular gamma-ray bursts. The burst mechanism might involve crustal fractures and excitation of non-radial modes which would emit gravitational waves (GWs). We present the results of a search for GW bursts from six galactic magnetars that is sensitive to neutron star f-modes, thought to be the most efficient GW emitting oscillatory modes in compact stars. One of them, SGR 0501+4516, is likely similar to 1 kpc from Earth, an order of magnitude closer than magnetars targeted in previous GW searches. A second, AXP 1E 1547.0-5408, gave a burst with an estimated isotropic energy >10(44) erg which is comparable to the giant flares. We find no evidence of GWs associated with a sample of 1279 electromagnetic triggers from six magnetars occurring between 2006 November and 2009 June, in GW data from the LIGO, Virgo, and GEO600 detectors. Our lowest model-dependent GW emission energy upper limits for band-and time-limited white noise bursts in the detector sensitive band, and for f-mode ringdowns (at 1090 Hz), are 3.0 x 10(44)d(1)(2) erg and 1.4 x 10(47)d(1)(2) erg, respectively, where d(1) = d(0501)/1 kpc and d(0501) is the distance to SGR 0501+4516. These limits on GW emission from f-modes are an order of magnitude lower than any previous, and approach the range of electromagnetic energies seen in SGR giant flares for the first time.
SEARCH FOR GRAVITATIONAL WAVE BURSTS FROM SIX MAGNETARS
J. Abadie;B. P. Abbott;R. Abbott;M. Abernathy;T. Accadia;F. Acernese;C. Adams;R. Adhikari;C. Affeldt;B. Allen;G. S. Allen;E. A. Ceron;D. Amariutei;R. S. Amin;S. B. Anderson;W. G. Anderson;F. Antonucci;K. Arai;M. A. Arain;M. C. Araya;S. M. Aston;P. Astone;D. Atkinson;P. Aufmuth;C. Aulbert;B. E. Aylott;S. Babak;P. Baker;G. Ballardin;S. Ballmer;D. Barker;S. Barnum;F. Barone;B. Barr;P. Barriga;L. Barsotti;M. Barsuglia;M. A. Barton;I. Bartos;R. Bassiri;M. Bastarrika;A. Basti;J. Bauchrowitz;T. S. Bauer;B. Behnke;M. G. Beker;A. S. Bell;A. Belletoile;I. Belopolski;M. Benacquista;A. Bertolini;J. Betzwieser;N. Beveridge;P. T. Beyersdorf;I. A. Bilenko;G. Billingsley;J. Birch;S. Birindelli;R. Biswas;M. Bitossi;M. A. Bizouard;E. Black;J. K. Blackburn;L. Blackburn;D. Blair;B. Bland;M. Blom;O. Bock;T. P. Bodiya;C. Bogan;R. Bondarescu;F. Bondu;L. Bonelli;R. Bonnand;R. Bork;M. Born;V. Boschi;S. Bose;L. Bosi;B. Bouhou;M. Boyle;S. Braccini;C. Bradaschia;P. R. Brady;V. B. Braginsky;J. E. Brau;J. Breyer;D. O. Bridges;A. Brillet;M. Brinkmann;V. Brisson;M. Britzger;A. F. Brooks;D. A. Brown;A. Brummit;R. Budzynski;T. Bulik;H. J. Bulten;A. Buonanno;J. Burguet Castell;O. Burmeister;D. Buskulic;C. Buy;R. L. Byer;L. Cadonati;G. Cagnoli;J. Cain;E. Calloni;J. B. Camp;E. Campagna;P. Campsie;J. Cannizzo;K. Cannon;B. Canuel;J. Cao;C. Capano;F. Carbognani;S. Caride;S. Caudill;M. Cavaglia;F. Cavalier;R. Cavalieri;G. Cella;C. Cepeda;E. Cesarini;O. Chaibi;T. Chalermsongsak;E. Chalkley;P. Charlton;E. Chassande Mottin;S. Chelkowski;Y. Chen;A. Chincarini;N. Christensen;S. S. Y. , C. T. Y.;S. Chung;F. Clara;D. Clark;J. Clark;J. H. Clayton;F. Cleva;E. Coccia;C. N. Colacino;J. Colas;A. Colla;M. Colombini;R. Conte;D. Cook;T. R. Corbitt;N. Cornish;A. Corsi;C. A. Costa;M. Coughlin;J. P. Coulon;D. M. Coward;D. C. Coyne;J. D. E.;T. D. Creighton;A. M. Cruise;R. M. Culter;A. Cumming;L. Cunningham;E. Cuoco;K. Dahl;S. L. Danilishin;R. Dannenberg;S. D'Antonio;K. Danzmann;K. Das;V. Dattilo;B. Daudert;H. Daveloza;M. Davier;G. Davies;E. J. Daw;R. Day;T. Dayanga;R. D. Rosa;D. DeBra;G. Debreczeni;J. Degallaix;M. d. Prete;T. Dent;V. Dergachev;R. DeRosa;R. DeSalvo;S. Dhurandhar;L. D. Fiore;A. D. Lieto;I. D. Palma;M. D. Paolo;A. D. Virgilio;M. Diaz;A. Dietz;F. Donovan;K. L. Dooley;S. Dorsher;E. S. D.;M. Drago;R. W. P.;J. C. Driggers;J. C. Dumas;S. Dwyer;T. Eberle;M. Edgar;M. Edwards;A. Effler;P. Ehrens;R. Engel;T. Etzel;M. Evans;T. Evans;M. Factourovich;V. Fafone;S. Fairhurst;Y. Fan;B. F. Farr;D. Fazi;H. Fehrmann;D. Feldbaum;I. Ferrante;F. Fidecaro;L. S. Finn;I. Fiori;R. Flaminio;M. Flanigan;S. Foley;E. Forsi;L. A. Forte;N. Fotopoulos;J. D. Fournier;J. Franc;S. Frasca;F. Frasconi;M. Frede;M. Frei;Z. Frei;A. Freise;R. Frey;T. T. Fricke;D. Friedrich;P. Fritschel;V. V. Frolov;P. Fulda;M. Fyffe;M. Galimberti;L. Gammaitoni;J. Garcia;J. A. Garofoli;F. Garufi;M. E. Gaspar;G. Gemme;E. Genin;A. Gennai;S. Ghosh;J. A. Giaime;S. Giampanis;K. D. Giardina;A. Giazotto;C. Gill;E. Goetz;L. M. Goggin;G. Gonzalez;M. L. Gorodetsky;S. Gossler;R. Gouaty;C. Graef;M. Granata;A. Grant;S. Gras;C. Gray;R. J. S.;A. M. Gretarsson;C. Greverie;R. Grosso;H. Grote;S. Grunewald;G. M. Guidi;C. Guido;R. Gupta;E. K. Gustafson;R. Gustafson;B. Hage;J. M. Hallam;D. Hammer;G. Hammond;J. Hanks;C. Hanna;J. Hanson;J. Harms;G. M. Harry;I. W. Harry;E. D. Harstad;M. T. Hartman;K. Haughian;K. Hayama;J. F. Hayau;T. Hayler;J. Heefner;H. Heitmann;P. Hello;M. A. Hendry;I. S. Heng;A. W. Heptonstall;V. Herrera;M. Hewitson;S. Hild;D. Hoak;K. A. Hodge;K. Holt;T. Hong;S. Hooper;D. J. Hosken;J. Hough;E. J. Howell;D. Huet;B. Hughey;S. Husa;S. H. Huttner;D. R. Ingram;R. Inta;T. Isogai;A. Ivanov;P. Jaranowski;W. W. Johnson;D. I. Jones;G. Jones;R. Jones;L. Ju;P. Kalmus;V. Kalogera;S. Kandhasamy;J. B. Kanner;E. Katsavounidis;W. Katzman;K. Kawabe;S. Kawamura;F. Kawazoe;W. Kells;M. Kelner;D. G. Keppel;A. Khalaidovski;F. Y. Khalili;E. A. Khazanov;H. Kim;N. Kim;P. J. King;D. L. Kinzel;J. S. Kissel;S. Klimenko;V. Kondrashov;R. Kopparapu;S. Koranda;W. Z. Korth;I. Kowalska;D. Kozak;V. Kringel;S. Krishnamurthy;B. Krishnan;A. Krolak;G. Kuehn;R. Kumar;P. Kwee;M. Landry;B. Lantz;N. Lastzka;A. Lazzarini;P. Leaci;J. Leong;I. Leonor;N. Leroy;N. Letendre;J. Li;T. G. F.;N. Liguori;P. E. Lindquist;N. A. Lockerbie;D. Lodhia;M. Lorenzini;V. Loriette;M. Lormand;G. Losurdo;P. Lu;J. Luan;M. Lubinski;H. Lueck;A. P. Lundgren;E. Macdonald;B. Machenschalk;M. MacInnis;M. Mageswaran;K. Mailand;E. Majorana;I. Maksimovic;N. Man;I. Mandel;V. Mandic;M. Mantovani;A. Marandi;MARCHESONI, Fabio;F. Marion;S. Marka;Z. Marka;E. Maros;J. Marque;F. Martelli;I. W. Martin;R. M. Martin;J. N. Marx;K. Mason;A. Masserot;F. Matichard;L. Matone;R. A. Matzner;N. Mavalvala;R. McCarthy;D. E. McClelland;S. C. McGuire;G. McIntyre;D. J. A.;G. Meadors;M. Mehmet;T. Meier;A. Melatos;A. C. Melissinos;G. Mendell;R. A. Mercer;L. Merill;S. Meshkov;C. Messenger;M. S. Meyer;H. Miao;C. Michel;L. Milano;J. Miller;Y. Minenkov;Y. Mino;V. P. Mitrofanov;G. Mitselmakher;R. Mittleman;O. Miyakawa;B. Moe;P. Moesta;M. Mohan;S. D. Mohanty;S. R. P.;D. Moraru;G. Moreno;N. Morgado;A. Morgia;S. Mosca;V. Moscatelli;K. Mossavi;B. Mours;C. M. Mow Lowry;G. Mueller;S. Mukherjee;A. Mullavey;H. Mueller Ebhardt;J. Munch;P. G. Murray;T. Nash;R. Nawrodt;J. Nelson;I. Neri;G. Newton;E. Nishida;A. Nishizawa;F. Nocera;D. Nolting;E. Ochsner;J. O'Dell;G. H. Ogin;R. G. Oldenburg;B. O'Reilly;R. O'Shaughnessy;C. Osthelder;C. D. Ott;D. J. Ottaway;R. S. Ottens;H. Overmier;B. J. Owen;A. Page;G. Pagliaroli;L. Palladino;C. Palomba;Y. Pan;C. Pankow;F. Paoletti;M. A. Papa;A. Parameswaran;S. Pardi;M. Parisi;A. Pasqualetti;R. Passaquieti;D. Passuello;P. Patel;D. Pathak;M. Pedraza;L. Pekowsky;S. Penn;C. Peralta;A. Perreca;G. Persichetti;M. Phelps;M. Pichot;M. Pickenpack;F. Piergiovanni;M. Pietka;L. Pinard;I. M. Pinto;M. Pitkin;H. J. Pletsch;M. V. Plissi;J. Podkaminer;R. Poggiani;J. Poeld;F. Postiglione;M. Prato;V. Predoi;L. R. Price;M. Prijatelj;M. Principe;S. Privitera;R. Prix;G. A. Prodi;L. Prokhorov;O. Puncken;M. Punturo;P. Puppo;V. Quetschke;F. J. Raab;D. S. Rabeling;I. Racz;H. Radkins;P. Raffai;M. Rakhmanov;C. R. Ramet;B. Rankins;P. Rapagnani;V. Raymond;V. Re;K. Redwine;C. M. Reed;T. Reed;T. Regimbau;S. Reid;D. H. Reitze;F. Ricci;R. Riesen;K. Riles;P. Roberts;N. A. Robertson;F. Robinet;C. Robinson;E. L. Robinson;A. Rocchi;S. Roddy;L. Rolland;J. Rollins;J. D. Romano;R. Romano;J. H. Romie;D. Rosinska;C. Roever;S. Rowan;A. R. Udiger;P. Ruggi;K. Ryan;S. Sakata;M. Sakosky;F. Salemi;M. Salit;L. Sammut;L. S. de;V. Sandberg;V. Sannibale;L. Santamaria;I. Santiago Prieto;G. Santostasi;S. Saraf;B. Sassolas;B. S. Sathyaprakash;S. Sato;M. Satterthwaite;P. R. Saulson;R. Savage;R. Schilling;S. Schlamminger;R. Schnabel;R. M. S.;B. Schulz;B. F. Schutz;P. Schwinberg;J. Scott;S. M. Scott;A. C. Searle;F. Seifert;D. Sellers;A. S. Sengupta;D. Sentenac;A. Sergeev;D. A. Shaddock;M. Shaltev;B. Shapiro;P. Shawhan;T. S. Weerathunga;D. H. Shoemaker;A. Sibley;X. Siemens;D. Sigg;A. Singer;L. Singer;A. M. Sintes;G. Skelton;B. J. J.;J. Slutsky;J. R. Smith;M. R. Smith;N. D. Smith;R. Smith;K. Somiya;B. Sorazu;J. Soto;F. C. Speirits;L. Sperandio;M. Stefszky;A. J. Stein;J. Steinlechner;S. Steinlechner;S. Steplewski;A. Stochino;R. Stone;K. A. Strain;S. Strigin;A. S. Stroeer;R. Sturani;A. L. Stuver;T. Z. Summerscales;M. Sung;S. Susmithan;P. J. Sutton;B. Swinkels;G. P. Szokoly;M. Tacca;D. Talukder;D. B. Tanner;S. P. Tarabrin;J. R. Taylor;R. Taylor;P. Thomas;K. A. Thorne;K. S. Thorne;E. Thrane;A. Thuering;C. Titsler;K. V. Tokmakov;A. Toncelli;M. Tonelli;O. Torre;C. Torres;C. I. Torrie;E. Tournefier;F. Travasso;G. Traylor;M. Trias;K. Tseng;L. Turner;D. Ugolini;K. Urbanek;H. Vahlbruch;B. Vaishnav;G. Vajente;M. Vallisneri;J. F. J.;C. V. Den;S. v. der;M. V. van;A. A. van;S. Vass;M. Vasuth;R. Vaulin;M. Vavoulidis;A. Vecchio;G. Vedovato;J. Veitch;P. J. Veitch;C. Veltkamp;D. Verkindt;F. Vetrano;A. Vicere;A. E. Villar;J. Y. Vinet;H. Vocca;C. Vorvick;S. P. Vyachanin;S. J. Waldman;L. Wallace;A. Wanner;R. L. Ward;M. Was;P. Wei;M. Weinert;A. J. Weinstein;R. Weiss;L. Wen;S. Wen;P. Wessels;M. West;T. Westphal;K. Wette;J. T. Whelan;S. E. Whitcomb;D. White;B. F. Whiting;C. Wilkinson;P. A. Willems;H. R. Williams;L. Williams;B. Willke;L. Winkelmann;W. Winkler;C. C. Wipf;A. G. Wiseman;G. Woan;R. Wooley;J. Worden;J. Yablon;I. Yakushin;H. Yamamoto;K. Yamamoto;H. Yang;D. Yeaton Massey;S. Yoshida;P. Yu;M. Yvert;M. Zanolin;L. Zhang;Z. Zhang;C. Zhao;N. Zotov;M. E. Zucker;J. Zweizig;R. L. Aptekar;W. V. Boynton;M. S. Briggs;T. L. Cline;V. Connaughton;D. D. Frederiks;N. Gehrels;J. O. Goldsten;D. Golovin;A. J. van;K. C. Hurley;Y. Kaneko;A. v. Kienlin;C. Kouveliotou;H. A. Krimm;L. Lin;I. Mitrofanov;M. Ohno;V. D. Pal'shin;A. Rau;A. Sanin;M. S. Tashiro;Y. Terada;K. Yamaoka;L. S. Collaboration;V. Collaboration
2011-01-01
Abstract
Soft gamma repeaters (SGRs) and anomalous X-ray pulsars (AXPs) are thought to be magnetars: neutron stars powered by extreme magnetic fields. These rare objects are characterized by repeated and sometimes spectacular gamma-ray bursts. The burst mechanism might involve crustal fractures and excitation of non-radial modes which would emit gravitational waves (GWs). We present the results of a search for GW bursts from six galactic magnetars that is sensitive to neutron star f-modes, thought to be the most efficient GW emitting oscillatory modes in compact stars. One of them, SGR 0501+4516, is likely similar to 1 kpc from Earth, an order of magnitude closer than magnetars targeted in previous GW searches. A second, AXP 1E 1547.0-5408, gave a burst with an estimated isotropic energy >10(44) erg which is comparable to the giant flares. We find no evidence of GWs associated with a sample of 1279 electromagnetic triggers from six magnetars occurring between 2006 November and 2009 June, in GW data from the LIGO, Virgo, and GEO600 detectors. Our lowest model-dependent GW emission energy upper limits for band-and time-limited white noise bursts in the detector sensitive band, and for f-mode ringdowns (at 1090 Hz), are 3.0 x 10(44)d(1)(2) erg and 1.4 x 10(47)d(1)(2) erg, respectively, where d(1) = d(0501)/1 kpc and d(0501) is the distance to SGR 0501+4516. These limits on GW emission from f-modes are an order of magnitude lower than any previous, and approach the range of electromagnetic energies seen in SGR giant flares for the first time.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/242283
Attenzione
Attenzione! I dati visualizzati non sono stati sottoposti a validazione da parte dell'ateneo
Citazioni
ND
ND
ND
social impact
Conferma cancellazione
Sei sicuro che questo prodotto debba essere cancellato?
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.
