Deep-sea deployment of the KM3NeT neutrino telescope detection units by   self-unrolling

The KM3NeT Collaboration: S. Aiello; A. Albert; S. Alves Garre; Z.; Aly; F. Ameli; E.G. Anassontzis; M. Andre; G. Androulakis; M. Anghinolfi; M.; Anguita; G. Anton; M. Ardid; J. Aublin; C. Bagatelas; R. Bakker; G.; Barbarino; B. Baret; S. Basegmez du Pree; M. Bendahman; E. Berbeen; A.M. van; den Berg; V. Bertin; S. Biagi; M. Billault; M. Bissinger; M. Boettcher; J.; Boumaaza; M. Bouta; M. Bouwhuis; C. Bozza; H.Br\^anza\c{s}; R. Bruijn; J.; Brunner; E. Buis; R. Buompane; J. Busto; G. Cacopardo; B. Caiffi; L. Caillat,; D. Calvo; A. Capone; V. Carretero; P. Castaldi; S. Celli; M. Chabab; N. Chau,; A. Chen; S. Cherubini; V. Chiarella; T. Chiarusi; M. Circella; R. Cocimano,; J.A.B. Coelho; A. Coleiro; M. Colomer Molla; S. Colonges; R. Coniglione; I.; Corredoira; A. Cosquer; P. Coyle; A. Creusot; G. Cuttone; C. D'Amato; A.; D'Onofrio; R. Dallier; M. De Palma; I. Di Palma; A.F. D\'iaz; D.; Diego-Tortosa; C. Distefano; A. Domi; R. Don\`a; C. Donzau; D. Dornic; M.; D\"orr; D. Drouhin; T. Eberl; A. Eddyamoui; T. van Eeden; D. van Eijk; I. El; Bojaddaini; D. Elsaesser; A. Enzenh\"ofer; V. Espinosa; P. Fermani; G.; Ferrara; M.D. Filipovi\'c; F. Filippini; L.A. Fusco; O. Gabella; T. Gal; A.; Garcia Soto; F. Garufi; Y. Gatelet; N. Gei{\ss}elbrecht; L. Gialanella; E.; Giorgio; L. Gostiaux; S.R. Gozzini; R. Gracia; K. Graf; D. Grasso; G. Grella,; A. Grmek; D. Guderian; C. Guidii; S. Hallmann; H. Hamdaoui; H. van Haren; J.; van Heerwaarden; A. Heijboer; A. Hekaloa; S. Henry; J.J. Hern\'andez-Rey; T.; Hillebrand; J. Hofest\"adt; F. Huang; W. Idrissi Ibnsalih; A. Ilioni; G.; Illuminati; C.W. James; M. de Jong; P. de Jong; B.J. Jung; M. Kadler; P.; Kalaczy\'nski; O. Kalekin; U.F. Katz; N.R. Khan Chowdhury; G. Kistauri; F.; van der Knaap; E.N. Koffeman; P. Kooijman; A. Kouchner; M. Kreter; V.; Kulikovskiy; M. Laan; R. Lahmann; P. Lamare; G. Larosa; J. Laurence; R. Le; Breton; O. Leonardi; F. Leone; E. Leonora; G. Levi; M. Lincetto; M. Lindsey; Clark; T. Lipreau; F. Longhitano; D. LopezCotoa; L. Maderer; J. Ma\'nczak; K.; Mannheim; A. Margiotta; A. Marinelli; C. Markou; L. Martin; J.A.; Mart\'inez-Mora; A. Martini; F. Marzaioli; S. Mastroianni; S. Mazzou; K.W.; Melis; G. Miele; P. Migliozzi; E. Migneco; P. Mijakowski; L.S. Miranda; C.M.; Mollo; M. Mongelli; M. Morganti; M. Moser; A. Moussa; R. Muller; D. Mu\~noz; P\'erez; M. Musumeci; L. Nauta; S. Navas; C.A. Nicolau; B. \'O Fearraigh; M.; O'Sullivan; M. Organokov; A. Orlando; J. Palacios Gonz\'alez; G.; Papalashvili; R. Papaleo; C. Pastore; A.M. P\u{a}un; G.E.; P\u{a}v\u{a}la\c{s}; C. Pellegrino; M. Perrin-Terrin; P. Piattelli; C.; Pieterse; K. Pikounis; O. Pisanti; C. Poir\`e; V. Popa; T. Pradier; G.; P\"uhlhofer; S. Pulvirenti; O. Rabyang; F. Raffaelli; N. Randazzo; S.; Razzaque; D. Real; S. Reck; G. Riccobene; M. Richer; S. Rivoire; A. Rovelli,; F. Salesa Greus; D.F.E. Samtleben; A. S\'anchez Losa; M. Sanguineti; A.; Santangelo; D. Santonocito; P. Sapienza; J. Schnabel; J. Schumann; J. Seneca,; I. Sgura; R. Shanidze; A. Sharma; F. Simeone; A. Sinopoulou; B. Spisso; M.; Spurio; D. Stavropoulos; J. Steijger; S.M. Stellacci; M. Taiutii; Y.; Tayalati; E. Tenllado; D. T\'ezier; T. Thakore; S. Tingay; E. Tzamariudaki,; D. Tzanetatos; V. Van Elewyck; G. Vasileiadis; F. Versari; S. Viola; D.; Vivolo; G. de Wasseige; J. Wilms; R. Wojaczy\'nski; E. de Wolf; S.; Zavatarelli; A. Zegarelli; D. Zito; J.D. Zornoza; J. Z\'u\~niga; N. Zywucka

arXiv:2007.16090·astro-ph.IM·August 3, 2020·1 cites

Deep-sea deployment of the KM3NeT neutrino telescope detection units by self-unrolling

The KM3NeT Collaboration: S. Aiello, A. Albert, S. Alves Garre, Z., Aly, F. Ameli, E.G. Anassontzis, M. Andre, G. Androulakis, M. Anghinolfi, M., Anguita, G. Anton, M. Ardid, J. Aublin, C. Bagatelas, R. Bakker, G., Barbarino, B. Baret, S. Basegmez du Pree, M. Bendahman

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TL;DR

This paper presents a novel self-unrolling deployment method for KM3NeT neutrino detection units, enabling efficient installation of long, slender strings in deep-sea environments with a compact, reusable launching vehicle.

Contribution

It introduces a custom-designed, fast deployment technique utilizing a self-unrolling vehicle for installing KM3NeT detection units in the deep sea, improving efficiency and reusability.

Findings

01

Successful deployment of long detection strings using the self-unrolling method

02

Reduction in deployment time compared to traditional methods

03

Demonstration of the system's reusability and reliability

Abstract

KM3NeT is a research infrastructure being installed in the deep Mediterranean Sea. It will house a neutrino telescope comprising hundreds of networked moorings - detection units or strings equipped with optical instrumentation to detect the Cherenkov radiation generated by charged particles from neutrino-induced collisions in its vicinity. In comparison to moorings typically used for oceanography, several key features of the KM3NeT string are different: the instrumentation is contained in transparent and thus unprotected glass spheres; two thin Dyneema ropes are used as strength members; and a thin delicate backbone tube with fibre-optics and copper wires for data and power transmission, respectively, runs along the full length of the mooring. Also, compared to other neutrino telescopes such as ANTARES in the Mediterranean Sea and GVD in Lake Baikal, the KM3NeT strings are more slender…

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Taxonomy

TopicsAstrophysics and Cosmic Phenomena · Neutrino Physics Research · Methane Hydrates and Related Phenomena