KM3NeT broadcast optical data transport system-Reference-Cited by-同舟云学术

KM3NeT broadcast optical data transport system

Published:2023-02-01 Issue:02 Volume:18 Page:T02001
ISSN:1748-0221
Container-title:Journal of Instrumentation
language:
Short-container-title:J. Inst.

Author:

Aiello S.,Albert A.,Alves Garre S.,Aly Z.,Ambrosone A.,Ameli F.,Andre M.,Anghinolfi M.,Anguita M.,Ardid M.,Ardid S.,Aublin J.,Bagatelas C.,Bailly-Salins L.,Baret B.,Basegmez du Pree S.,Becherini Y.,Bendahman M.,Benfenati F.,Berbee E.,Bertin V.,Biagi S.,Boettcher M.,Bou Cabo M.,Boumaaza J.,Bouta M.,Bouwhuis M.,Bozza C.,Brânzaş H.,Bruijn R.,Brunner J.,Bruno R.,Buis E.,Buompane R.,Busto J.,Caiffi B.,Calvo D.,Campion S.,Capone A.,Carenini F.,Carretero V.,Castaldi P.,Celli S.,Cerisy L.,Chabab M.,Chau N.,Chen A.,Cherkaoui El Moursli R.,Cherubini S.,Chiarella V.,Chiarusi T.,Circella M.,Cocimano R.,Coelho J.A.B.,Coleiro A.,Coniglione R.,Coyle P.,Creusot A.,Cruz A.,Cuttone G.,D'Amico A.,Dallier R.,Darras Y.,De Benedittis A.,De Martino B.,Del Burgo R.,Di Palma I.,Díaz A.F.,Diego-Tortosa D.,Distefano C.,Domi A.,Donzaud C.,Dornic D.,Dörr M.,Drakopoulou E.,Drouhin D.,Eberl T.,Eddyamoui A.,van Eeden T.,Eff M.,van Eijk D.,El Bojaddaini I.,El Hedri S.,Enzenhöfer A.,Espinosa V.,Ferrara G.,Filipović M.D.,Filippini F.,Fusco L.A.,Gabriel J.,Gal T.,García Méndez J.,Garcia Soto A.,Garufi F.,Gatius Oliver C.,Geißelbrecht N.,Gialanella L.,Giorgio E.,Girardi A.,Goos I.,Gozzini S.R.,Gracia R.,Graf K.,Guderian D.,Guidi C.,Guillon B.,Gutiérrez M.,Haegel L.,van Haren H.,Heijboer A.,Hekalo A.,Hennig L.,Hernández-Rey J.J.,Huang F.,Idrissi Ibnsalih W.,Illuminati G.,James C.W.,Janezashvili D.,de Jong M.,de Jong P.,Jung B.J.,Kalaczyński P.,Kalekin O.,Katz U.F.,Khan Chowdhury N.R.,Kistauri G.,van der Knaap F.,Kooijman P.,Kouchner A.,Kulikovskiy V.,Labalme M.,Lahmann R.,Lakhal A.,Lamoureux M.,Larosa G.,Lastoria C.,Lazo A.,Le Breton R.,Le Stum S.,Lehaut G.,Leonora E.,Lessing N.,Levi G.,Liang S.,Lindsey Clark M.,Longhitano F.,Maderer L.,Majumdar J.,Mańczak J.,Margiotta A.,Marinelli A.,Markou C.,Martin L.,Martínez-Mora J.A.,Martini A.,Marzaioli F.,Mastrodicasa M.,Mastroianni S.,Melis K.W.,Miccichè S.,Miele G.,Migliozzi P.,Migneco E.,Mijakowski P.,Mollo C.M.,Morales-Gallegos L.,Morley-Wong C.,Moussa A.,Muller R.,Musone M.R.,Musumeci M.,Nauta L.,Navas S.,Nicolau C.A.,Nkosi B.,Ó Fearraigh B.,Orlando A.,Oukacha E.,Palacios González J.,Papalashvili G.,Papaleo R.,Pastor Gomez E.J.,Păun A.M.,Păvălaş G.E.,Pellegrino C.,Peña Martínez S.,Perrin-Terrin M.,Perronnel J.,Pestel V.,Piattelli P.,Pisanti O.,Poirè C.,Popa V.,Pradier T.,Pulvirenti S.,Quéméner G.,Rahaman U.,Randazzo N.,Razzaque S.,Rea I.C.,Real D.,Reck S.,Riccobene G.,Robinson J.,Romanov A.,Salesa Greus F.,Samtleben D.F.E.,Sánchez Losa A.,Sanguineti M.,Santonastaso C.,Santonocito D.,Sapienza P.,Sathe A.,Schmelling J.,Schnabel J.,Schneider M.F.,Schumann J.,M. Schutte H.,Seneca J.,Sgura I.,Shanidze R.,Sharma A.,Simonelli A.,Sinopoulou A.,Smirnov M.V.,Spisso B.,Spurio M.,Stavropoulos D.,Stellacci S.M.,Taiuti M.,Tavzarashvili K.,Tayalati Y.,Tedjditi H.,Thiersen H.,Tsagkli S.,Tsourapis V.,Tzamariudaki E.,Van Elewyck V.,Vannoye G.,Vasileiadis G.,Versari F.,Viola S.,Vivolo D.,Warnhofer H.,Wilms J.,de Wolf E.,Yepes-Ramirez H.,Yousfi T.,Zavatarelli S.,Zegarelli A.,Zito D.,Zornoza J.D.,Zúñiga J.,Zywucka N.

Abstract

Abstract The optical data transport system of the KM3NeT neutrino telescope at the bottom of the Mediterranean Sea will provide more than 6000 optical modules in the detector arrays with a point-to-point optical connection to the control stations onshore. The ARCA and ORCA detectors of KM3NeT are being installed at a depth of about 3500 m and 2500 m, respectively and their distance to the control stations is about 100 kilometers and 40 kilometers. In particular, the two detectors are optimised for the detection of cosmic neutrinos with energies above about 1 TeV (ARCA) and for the detection of atmospheric neutrinos with energies in the range 1 GeV–1 TeV (ORCA). The expected maximum data rate is 200 Mbps per optical module. The implemented optical data transport system matches the layouts of the networks of electro-optical cables and junction boxes in the deep sea. For efficient use of the fibres in the system the technology of Dense Wavelength Division Multiplexing is applied. The performance of the optical system in terms of measured bit error rates, optical budget are presented. The next steps in the implementation of the system are also discussed.

Publisher

IOP Publishing

Subject

Mathematical Physics,Instrumentation

Link

https://iopscience.iop.org/article/10.1088/1748-0221/18/02/T02001/pdf

Reference16 articles.

1. Letter of intent for KM3NeT 2.0;Adrian-Martinez;J. Phys. G,2016

2. The KM3NeT multi-PMT optical module;Aiello;JINST,2022

3. Deep-sea deployment of the KM3NeT neutrino telescope detection units by self-unrolling;Aiello;JINST,2020

4. ANTARES: the first undersea neutrino telescope;Ageron;Nucl. Instrum. Meth. A,2011

5. The data acquisition system of the KM3NeT detector;Biagi;PoS,2016

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