Aguilar J. A., Al Samarai I., Albert A., Andre M., Anghinolfi M., Anton G., Anvar S., Ardid M., Jesus A. C. A., Astraatmadja T., Aubert J. J., Auer R., Baret B., Basa S., Bazzotti M., Bertin V., Biagi S., Bigongiari C., Bogazzi C., Bou-Cabo M., Bouwhuis M. C., Brown A. M., Brunner J., Busto J., Camarena F., Capone A., Carloganu C., Carminati G., Carr J., Cecchini S., Charvis Philippe, Chiarusi T., Circella M., Coniglione R., Costantini H., Cottini N., Coyle P., Curtil C., Decowski M. P., Dekeyser I., Deschamps A., Distefano C., Donzaud C., Dornic D., Dorosti Q., Drouhin D., Eberl T., Emanuele U., Ernenwein J. P., Escoffier S., Fehr F., Flaminio V., Fritsch U., Fuda J. L., Galata S., Gay P., Giacomelli G., Gomez-Gonzalez J. P., Graf K., Guillard G., Halladjian G., Hallewell G., van Haren H., Heijboer A. J., Hello Yann, Hernandez-Rey J. J., Herold B., Hossl J., Hsu C. C., de Jong M., Kadler M., Kalantar-Nayestanaki N., Kalekin O., Kappes A., Katz U., Kooijman P., Kopper C., Kouchner A., Kulikovskiy V., Lahmann R., Lamare P., Larosa G., Lefevre D., Lim G., Lo Presti D., Loehner H., Loucatos S., Lucarelli F., Mangano S., Marcelin M., Margiotta A., Martinez-Mora J. A., Mazure A., Meli A., Montaruli T., Morganti M., Moscoso L., Motz H., Naumann C., Neff M., Palioselitis D., Pavalas G. E., Payre P., Petrovic J., Picot-Clemente N., Picq C., Popa V., Pradier T., Presani E., Racca C., Reed C., Riccobene G., Richardt C., Richter R., Rostovtsev A., Rujoiu M., Russo G. V., Salesa F., Sapienza P., Schock F., Schuller J. P., Shanidze R., Simeone F., Spiess A., Spurio M., Steijger J. J. M., Stolarczyk T., Taiuti M., Tamburini C., Tasca L., Toscano S., Vallage B., Van Elewyck V., Vannoni G., Vecchi M., Vernin P., Wijnker G., de Wolf E., Yepes H., Zaborov D., Zornoza J. D., Zuniga J. (2011). A fast algorithm for muon track reconstruction and its application to the ANTARES neutrino telescope. Astroparticle Physics, 34 (9), p. 652-662. ISSN 0927-6505.
Titre du document
A fast algorithm for muon track reconstruction and its application to the ANTARES neutrino telescope
Année de publication
2011
Auteurs
Aguilar J. A., Al Samarai I., Albert A., Andre M., Anghinolfi M., Anton G., Anvar S., Ardid M., Jesus A. C. A., Astraatmadja T., Aubert J. J., Auer R., Baret B., Basa S., Bazzotti M., Bertin V., Biagi S., Bigongiari C., Bogazzi C., Bou-Cabo M., Bouwhuis M. C., Brown A. M., Brunner J., Busto J., Camarena F., Capone A., Carloganu C., Carminati G., Carr J., Cecchini S., Charvis Philippe, Chiarusi T., Circella M., Coniglione R., Costantini H., Cottini N., Coyle P., Curtil C., Decowski M. P., Dekeyser I., Deschamps A., Distefano C., Donzaud C., Dornic D., Dorosti Q., Drouhin D., Eberl T., Emanuele U., Ernenwein J. P., Escoffier S., Fehr F., Flaminio V., Fritsch U., Fuda J. L., Galata S., Gay P., Giacomelli G., Gomez-Gonzalez J. P., Graf K., Guillard G., Halladjian G., Hallewell G., van Haren H., Heijboer A. J., Hello Yann, Hernandez-Rey J. J., Herold B., Hossl J., Hsu C. C., de Jong M., Kadler M., Kalantar-Nayestanaki N., Kalekin O., Kappes A., Katz U., Kooijman P., Kopper C., Kouchner A., Kulikovskiy V., Lahmann R., Lamare P., Larosa G., Lefevre D., Lim G., Lo Presti D., Loehner H., Loucatos S., Lucarelli F., Mangano S., Marcelin M., Margiotta A., Martinez-Mora J. A., Mazure A., Meli A., Montaruli T., Morganti M., Moscoso L., Motz H., Naumann C., Neff M., Palioselitis D., Pavalas G. E., Payre P., Petrovic J., Picot-Clemente N., Picq C., Popa V., Pradier T., Presani E., Racca C., Reed C., Riccobene G., Richardt C., Richter R., Rostovtsev A., Rujoiu M., Russo G. V., Salesa F., Sapienza P., Schock F., Schuller J. P., Shanidze R., Simeone F., Spiess A., Spurio M., Steijger J. J. M., Stolarczyk T., Taiuti M., Tamburini C., Tasca L., Toscano S., Vallage B., Van Elewyck V., Vannoni G., Vecchi M., Vernin P., Wijnker G., de Wolf E., Yepes H., Zaborov D., Zornoza J. D., Zuniga J.
Source
Astroparticle Physics, 2011,
34 (9), p. 652-662 ISSN 0927-6505
An algorithm is presented, that provides a fast and robust reconstruction of neutrino induced upward-going muons and a discrimination of these events from downward-going atmospheric muon background in data collected by the ANTARES neutrino telescope. The algorithm consists of a hit merging and hit selection procedure followed by fitting steps for a track hypothesis and a point-like light source. It is particularly well-suited for real time applications such as online monitoring and fast triggering of optical follow-up observations for multi-messenger studies. The performance of the algorithm is evaluated with Monte Carlo simulations and various distributions are compared with that obtained in ANTARES data.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Sciences de la Terre : généralités [060]
Localisation
Fonds IRD [F B010053478]
Identifiant IRD
fdi:010053478
