Author:
Albert A.,Alves S.,André M.,Ardid M.,Ardid S.,Aubert J.-J.,Aublin J.,Baret B.,Basa S.,Belhorma B.,Bendahman M.,Benfenati F.,Bertin V.,Biagi S.,Bissinger M.,Boumaaza J.,Bouta M.,Bouwhuis M.C.,Brânzaş H.,Bruijn R.,Brunner J.,Busto J.,Caiffi B.,Calvo D.,Capone A.,Caramete L.,Carr J.,Carretero V.,Celli S.,Chabab M.,Chau T. N.,Cherkaoui El Moursli R.,Chiarusi T.,Circella M.,Coelho J.A.B.,Coleiro A.,Coniglione R.,Coyle P.,Creusot A.,Díaz A.F.,de Wasseige G.,De Martino B.,Distefano C.,Di Palma I.,Domi A.,Donzaud C.,Dornic D.,Drouhin D.,Eberl T.,van Eeden T.,van Eijk D.,El Khayati N.,Enzenhöfer A.,Fermani P.,Ferrara G.,Filippini F.,Fusco L.,García J.,Gay P.,Glotin H.,Gozzini R.,Gracia Ruiz R.,Graf K.,Guidi C.,Hallmann S.,van Haren H.,Heijboer A.J.,Hello Y.,Hernández-Rey J.J.,Hößl J.,Hofestädt J.,Huang F.,Illuminati G.,James C.W.,Jisse-Jung B.,de Jong M.,de Jong P.,Kadler M.,Kalekin O.,Katz U.,Kouchner A.,Kreykenbohm I.,Kulikovskiy V.,Lahmann R.,Lamoureux M.,Le Breton R.,Lefèvre D.,Leonora E.,Levi G.,Le Stum S.,Lopez-Coto D.,Loucatos S.,Maderer L.,Manczak J.,Marcelin M.,Margiotta A.,Marinelli A.,Martínez-Mora J.A.,Melis K.,Migliozzi P.,Moussa A.,Muller R.,Nauta L.,Navas S.,Nezri E.,Ó Fearraigh B.,Păun A.,Păvălaş G.E.,Pellegrino C.,Perrin-Terrin M.,Pestel V.,Piattelli P.,Pieterse C.,Poirè C.,Popa V.,Pradier T.,Randazzo N.,Real D.,Reck S.,Riccobene G.,Romanov A.,Sánchez-Losa A.,Salesa Greus F.,Samtleben D. F. E.,Sanguineti M.,Sapienza P.,Schnabel J.,Schumann J.,Schüssler F.,Seneca J.,Spurio M.,Stolarczyk Th.,Taiuti M.,Tayalati Y.,Tingay S.J.,Vallage B.,Van Elewyck V.,Versari F.,Viola S.,Vivolo D.,Wilms J.,Zavatarelli S.,Zegarelli A.,Zornoza J.D.,Zúñiga J.
Abstract
Abstract
In this work, a search for nuclearites of strange quark matter by using nine years of ANTARES data taken in the period 2009–2017 is presented. The passage through matter of these particles is simulated taking into account a detailed description of the detector response to nuclearites and of the data acquisition conditions. A down-going flux of cosmic nuclearites with Galactic velocities (β = 10-3) was considered for this study. The mass threshold for detecting these particles at the detector level is 4 × 1013 GeV/c
2. Upper limits on the nuclearite flux for masses up to 1017 GeV/c
2 at the level of ∼ 5 × 10-17 cm-2 s-1 sr-1 are obtained. These are the first upper limits on nuclearites established with a neutrino telescope and the most stringent ever set for Galactic velocities.