Adrian-Martinez S., Albert A., Andre M., Anton G., Ardid M., Aubert J. J., Baret B., Barrios-Marti J., Basa S., Bertin V., Biagii S., Bogazzi C., Bormuth R., Bou-Cabo M., Bouwhuis M. C., Bruijn R., Brunner J., Busto J., Capone A., Caramete L., Carr J., Chiarusi T., Circella M., Coniglione R., Core L., Costantini H., Coyle P., Creusot A., De Rosa G., Dekeyser I., Deschamps A., De Bonis G., Distefano C., Donzaud C., Dornic D., Dorosti Q., Drouhin D., Dumas A., Eberl T., Elsasser D., Enzenhofer A., Escoffier S., Fehn K., Fells I., Fermani P., Folger F., Fusco L. A., Galata S., Gay P., Geisselsoder S., Geyer K., Giordano V., Gleixner A., Gomez-Gonzalez J. P., Graf K., Guillard G., van Haren H., Heijboer A. J., Hello Yann, Hernandez-Rey J. J., Herold B., Herrero A., Hossl J., Hofestadt J., Hugon C., James C. W., de Jong M., Kadler M., Kalekin O., Kappes A., Katz U., Kiessling D., Kooijman P., Kouchner A., Kreykenbohm I., Kulikovskiy V., Lahmann R., Lambard E., Lambard G., Lefevre D., Leonora E., Loehner H., Loucatos S., Mangano S., Marcelin M., Margiotta A., Martinez-Mora J. A., Martini S., Mathieu A., Michael T., Migliozzi P., Muller C., Neff M., Nezri E., Palioselitis D., Pavalas G. E., Perrina C., Popa V., Pradier T., Racca C., Riccobene G., Richter R., Roensch K., Rostovtsev A., Saldana M., Samtleben D. F. E., Sanchez-Losa A., Sanguineti M., Schmid J., Schnabel J., Schulte S., Schussler F., Seitz T., Sieger C., Spies A., Spurioi M., Steijger J. J. M., Stolarczyk T., Taiuti M., Tamburini C., Tayalati Y., Trovato A., Tselengidou M., Tonnis C., Vallage B., Vallee C., Van Eewyck V., Visser E., Vivolo D., Wagner S., Wilms J., de Wolf E., Yatkin K., Yepes H., Zornoza J. D., Zuniga J., Falco E. E. (2014). Constraining the neutrino emission of gravitationally lensed Flat-Spectrum Radio Quasars with ANTARES data. Journal of Cosmology and Astroparticle Physics, (11), p. art. 017 [11 p.]. ISSN 1475-7516.
Titre du document
Constraining the neutrino emission of gravitationally lensed Flat-Spectrum Radio Quasars with ANTARES data
Année de publication
2014
Auteurs
Adrian-Martinez S., Albert A., Andre M., Anton G., Ardid M., Aubert J. J., Baret B., Barrios-Marti J., Basa S., Bertin V., Biagii S., Bogazzi C., Bormuth R., Bou-Cabo M., Bouwhuis M. C., Bruijn R., Brunner J., Busto J., Capone A., Caramete L., Carr J., Chiarusi T., Circella M., Coniglione R., Core L., Costantini H., Coyle P., Creusot A., De Rosa G., Dekeyser I., Deschamps A., De Bonis G., Distefano C., Donzaud C., Dornic D., Dorosti Q., Drouhin D., Dumas A., Eberl T., Elsasser D., Enzenhofer A., Escoffier S., Fehn K., Fells I., Fermani P., Folger F., Fusco L. A., Galata S., Gay P., Geisselsoder S., Geyer K., Giordano V., Gleixner A., Gomez-Gonzalez J. P., Graf K., Guillard G., van Haren H., Heijboer A. J., Hello Yann, Hernandez-Rey J. J., Herold B., Herrero A., Hossl J., Hofestadt J., Hugon C., James C. W., de Jong M., Kadler M., Kalekin O., Kappes A., Katz U., Kiessling D., Kooijman P., Kouchner A., Kreykenbohm I., Kulikovskiy V., Lahmann R., Lambard E., Lambard G., Lefevre D., Leonora E., Loehner H., Loucatos S., Mangano S., Marcelin M., Margiotta A., Martinez-Mora J. A., Martini S., Mathieu A., Michael T., Migliozzi P., Muller C., Neff M., Nezri E., Palioselitis D., Pavalas G. E., Perrina C., Popa V., Pradier T., Racca C., Riccobene G., Richter R., Roensch K., Rostovtsev A., Saldana M., Samtleben D. F. E., Sanchez-Losa A., Sanguineti M., Schmid J., Schnabel J., Schulte S., Schussler F., Seitz T., Sieger C., Spies A., Spurioi M., Steijger J. J. M., Stolarczyk T., Taiuti M., Tamburini C., Tayalati Y., Trovato A., Tselengidou M., Tonnis C., Vallage B., Vallee C., Van Eewyck V., Visser E., Vivolo D., Wagner S., Wilms J., de Wolf E., Yatkin K., Yepes H., Zornoza J. D., Zuniga J., Falco E. E.
Source
Journal of Cosmology and Astroparticle Physics, 2014,
(11), p. art. 017 [11 p.] ISSN 1475-7516
This paper proposes to exploit gravitational lensing effects to improve the sensitivity of neutrino telescopes to the intrinsic neutrino emission of distant blazar populations. This strategy is illustrated with a search for cosmic neutrinos in the direction of four distant and gravitationally lensed Flat-Spectrum Radio Quasars. The magnification factor is estimated for each system assuming a singular isothermal profile for the lens. Based on data collected from 2007 to 2012 by the ANTARES neutrino telescope, the strongest constraint is obtained from the lensed quasar B0218+357, providing a limit on the total neutrino luminosity of this source of 1.08 x 10(46) erg s(-1) This limit is about one order of magnitude lower than those previously obtained in the ANTARES standard point source searches with non-lensed Flat-Spectrum Radio Quasars.
Plan de classement
Limnologie / Océanographie : généralités [030]
;
Sciences de la Terre : généralités [060]
Localisation
Fonds IRD [F B010063151]
Identifiant IRD
fdi:010063151
