The KM3NeT potential for the next core-collapse supernova observation with neutrinos

S. Aiello; A. Albert; S. A. Garre; Z. Aly; A. Ambrosone; F. Ameli; M. Andre; G. Androulakis; M. Anghinolfi; M. Anguita; G. Anton; M. Ardid; S. Ardid; J. Aublin; C. Bagatelas; B. Baret; S. B. Du Pree; M. Bendahman; F. Benfenati; E. Berbee; A. M. Van Den Berg; V. Bertin; S. Biagi; M. Bissinger; M. Boettcher; M. Bou Cabo; J. Boumaaza; M. Bouta; M. Bouwhuis; C. Bozza; H. BrÃÂ¢nzaş; R. Bruijn; J. Brunner; E. Buis; R. Buompane; J. Busto; B. Caiffi; 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; R. Coniglione; P. Coyle; A. Creusot; G. Cuttone; R. Dallier; B. De Martino; M. De Palma; M. Di Marino; I. Di Palma; A. F. Díaz; D. Diego-Tortosa; C. Distefano; A. Domi; C. Donzaud; D. Dornic; M. Dörr; D. Drouhin; T. Eberl; A. Eddyamoui; T. Van Eeden; D. Van Eijk; I. El Bojaddaini; D. Elsaesser; A. Enzenhöfer; V. Espinosa; P. Fermani; G. Ferrara; M. D. Filipović; F. Filippini; L.A. Fusco; O. Gabella; T. Gal; A. Garcia Soto; F. Garufi; Y. Gatelet; N. Geißelbrecht; L. Gialanella; E. Giorgio; S. R. Gozzini; R. Gracia; K. Graf; D. Grasso; G. Grella; D. Guderian; C. Guidi; J. Haefner; H. Hamdaoui; H. Van Haren; A. Heijboer; A. Hekalo; L. Hennig; J. J. Hernández-Rey; J. Hofestädt; F. Huang; W. I. Ibnsalih; G. Illuminati; C. W. James; M. De Jong; P. De Jong; B.J. Jung; M. Kadler; P. Kalaczyński; O. Kalekin; U.F. Katz; N. R. Khan Chowdhury; G. Kistauri; F. Van Der Knaap; P. Kooijman; A. Kouchner; M. Kreter; V. Kulikovskiy; R. Lahmann; M. Lamoureux; G. Larosa; R. Le Breton; S. Le Stum; O. Leonardi; F. Leone; E. Leonora; N. Lessing; G. Levi; M. Lincetto; M. Lindsey Clark; T. Lipreau; F. Longhitano; D. Lopez-Coto; L. Maderer; J. Mańczak; K. Mannheim; A. Margiotta; A. Marinelli; C. Markou; L. Martin; J.A. Martínez-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. Morganti; M. Moser; A. Moussa; R. Muller; M. Musumeci; L. Nauta; S. Navas; C.A. Nicolau; B.Ó. Fearraigh; M. O’Sullivan; M. Organokov; A. Orlando; J. Palacios González; G. Papalashvili; R. Papaleo; G. Passaro; C. Pastore; A.M. Păun; G.E. Păvălaş; C. Pellegrino; M. Perrin-Terrin; V. Pestel; P. Piattelli; C. Pieterse; K. Pikounis; O. Pisanti; C. Poirè; V. Popa; T. Pradier; G. Pühlhofer; S. Pulvirenti; O. Rabyang; F. Raffaelli; N. Randazzo; S. Razzaque; D. Real; S. Reck; G. Riccobene; S. Rivoire; A. Romanov; A. Rovelli; F. S. Greus; D.F.E. Samtleben; A. Sánchez Losa; M. Sanguineti; A. Santangelo; D. Santonocito; P. Sapienza; J. Schnabel; M.F. Schneider; J. Schumann; H.M. Schutte; J. Seneca; I. Sgura; R. Shanidze; A. Sharma; F. Simeone; A. Sinopoulou; B. Spisso; M. Spurio; D. Stavropoulos; S.M. Stellacci; M. Taiuti; Y. Tayalati; E. Tenllado; T. Thakore; H. Thiersen; S. Tingay; V. Tsourapis; E. Tzamariudaki; D. Tzanetatos; T. Unbehaun; V. Van Elewyck; G. Vannoye; G. Vasileiadis; F. Versari; S. Viola; D. Vivolo; G. De Wasseige; J. Wilms; R. Wojaczyński; E. De Wolf; S. Zavatarelli; A. Zegarelli; D. Zito; J. D. Zornoza; J. Zúñiga; N. Zywucka

doi:10.1140/epjc/s10052-021-09187-5

The KM3NeT potential for the next core-collapse supernova observation with neutrinos

S. Aiello, A. Albert, S. A. Garre, Z. Aly, A. Ambrosone, F. Ameli, M. Andre, G. Androulakis, M. Anghinolfi, M. Anguita, G. Anton, M. Ardid, S. Ardid, J. Aublin, C. Bagatelas, B. Baret, S. B. Du Pree, M. Bendahman, F. Benfenati, E. BerbeeA. M. Van Den Berg, V. Bertin, S. Biagi, M. Bissinger, M. Boettcher, M. Bou Cabo, J. Boumaaza, M. Bouta, M. Bouwhuis, C. Bozza, H. BrÃÂ¢nzaş, R. Bruijn, J. Brunner, E. Buis, R. Buompane, J. Busto, B. Caiffi, 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, R. Coniglione, P. Coyle, A. Creusot, G. Cuttone, R. Dallier, B. De Martino, M. De Palma, M. Di Marino, I. Di Palma, A. F. Díaz, D. Diego-Tortosa, C. Distefano, A. Domi, C. Donzaud, D. Dornic, M. Dörr, D. Drouhin, T. Eberl, A. Eddyamoui, T. Van Eeden, D. Van Eijk, I. El Bojaddaini, D. Elsaesser, A. Enzenhöfer, V. Espinosa, P. Fermani, G. Ferrara, M. D. Filipović, F. Filippini, L.A. Fusco, O. Gabella, T. Gal, A. Garcia Soto, F. Garufi, Y. Gatelet, N. Geißelbrecht, L. Gialanella, E. Giorgio, S. R. Gozzini, R. Gracia, K. Graf, D. Grasso, G. Grella, D. Guderian, C. Guidi, J. Haefner, H. Hamdaoui, H. Van Haren, A. Heijboer, A. Hekalo, L. Hennig, J. J. Hernández-Rey, J. Hofestädt, F. Huang, W. I. Ibnsalih, G. Illuminati, C. W. James, M. De Jong, P. De Jong, B.J. Jung, M. Kadler, P. Kalaczyński, O. Kalekin, U.F. Katz, N. R. Khan Chowdhury, G. Kistauri, F. Van Der Knaap, P. Kooijman, A. Kouchner, M. Kreter, V. Kulikovskiy, R. Lahmann, M. Lamoureux, G. Larosa, R. Le Breton, S. Le Stum, O. Leonardi, F. Leone, E. Leonora, N. Lessing, G. Levi, M. Lincetto, M. Lindsey Clark, T. Lipreau, F. Longhitano, D. Lopez-Coto, L. Maderer, J. Mańczak, K. Mannheim, A. Margiotta, A. Marinelli, C. Markou, L. Martin, J.A. Martínez-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. Morganti, M. Moser, A. Moussa, R. Muller, M. Musumeci, L. Nauta, S. Navas, C.A. Nicolau, B.Ó. Fearraigh, M. O’Sullivan, M. Organokov, A. Orlando, J. Palacios González, G. Papalashvili, R. Papaleo, G. Passaro, C. Pastore, A.M. Păun, G.E. Păvălaş, C. Pellegrino, M. Perrin-Terrin, V. Pestel, P. Piattelli, C. Pieterse, K. Pikounis, O. Pisanti, C. Poirè, V. Popa, T. Pradier, G. Pühlhofer, S. Pulvirenti, O. Rabyang, F. Raffaelli, N. Randazzo, S. Razzaque, D. Real, S. Reck, G. Riccobene, S. Rivoire, A. Romanov, A. Rovelli, F. S. Greus, D.F.E. Samtleben, A. Sánchez Losa, M. Sanguineti, A. Santangelo, D. Santonocito, P. Sapienza, J. Schnabel, M.F. Schneider, J. Schumann, H.M. Schutte, J. Seneca, I. Sgura, R. Shanidze, A. Sharma, F. Simeone, A. Sinopoulou, B. Spisso, M. Spurio, D. Stavropoulos, S.M. Stellacci, M. Taiuti, Y. Tayalati, E. Tenllado, T. Thakore, H. Thiersen, S. Tingay, V. Tsourapis, E. Tzamariudaki, D. Tzanetatos, T. Unbehaun, V. Van Elewyck, G. Vannoye, G. Vasileiadis, F. Versari, S. Viola, D. Vivolo, G. De Wasseige, J. Wilms, R. Wojaczyński, E. De Wolf, S. Zavatarelli, A. Zegarelli, D. Zito, J. D. Zornoza, J. Zúñiga, N. Zywucka

Western Sydney University

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

The KM3NeT research infrastructure is under construction in the Mediterranean Sea. It consists of two water Cherenkov neutrino detectors, ARCA and ORCA, aimed at neutrino astrophysics and oscillation research, respectively. Instrumenting a large volume of sea water with âˆ¼ 6200 optical modules comprising a total of âˆ¼ 200 , 000 photomultiplier tubes, KM3NeT will achieve sensitivity to âˆ¼10MeV neutrinos from Galactic and near-Galactic core-collapse supernovae through the observation of coincident hits in photomultipliers above the background. In this paper, the sensitivity of KM3NeT to a supernova explosion is estimated from detailed analyses of background data from the first KM3NeT detection units and simulations of the neutrino signal. The KM3NeT observational horizon (for a 5Ïƒ discovery) covers essentially the Milky-Way and for the most optimistic model, extends to the Small Magellanic Cloud (âˆ¼60kpc). Detailed studies of the time profile of the neutrino signal allow assessment of the KM3NeT capability to determine the arrival time of the neutrino burst with a few milliseconds precision for sources up to 5-8 kpc away, and detecting the peculiar signature of the standing accretion shock instability if the core-collapse supernova explosion happens closer than 3-5 kpc, depending on the progenitor mass. KM3NeT's capability to measure the neutrino flux spectral parameters is also presented.

Original language	English
Article number	445
Number of pages	20
Journal	European Physical Journal C
Volume	81
Issue number	5
DOIs	https://doi.org/10.1140/epjc/s10052-021-09187-5
Publication status	Published - 2021

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10.1140/epjc/s10052-021-09187-5

Cite this

Aiello, S., Albert, A., Garre, S. A., Aly, Z., Ambrosone, A., Ameli, F., Andre, M., Androulakis, G., Anghinolfi, M., Anguita, M., Anton, G., Ardid, M., Ardid, S., Aublin, J., Bagatelas, C., Baret, B., Du Pree, S. B., Bendahman, M., Benfenati, F., ... Zywucka, N. (2021). The KM3NeT potential for the next core-collapse supernova observation with neutrinos. European Physical Journal C, 81(5), Article 445. https://doi.org/10.1140/epjc/s10052-021-09187-5

@article{d468ad0b794b47e7aa44a152886fc6a6,

title = "The KM3NeT potential for the next core-collapse supernova observation with neutrinos",

abstract = "The KM3NeT research infrastructure is under construction in the Mediterranean Sea. It consists of two water Cherenkov neutrino detectors, ARCA and ORCA, aimed at neutrino astrophysics and oscillation research, respectively. Instrumenting a large volume of sea water with {\^a}ˆ¼ 6200 optical modules comprising a total of {\^a}ˆ¼ 200 , 000 photomultiplier tubes, KM3NeT will achieve sensitivity to {\^a}ˆ¼10MeV neutrinos from Galactic and near-Galactic core-collapse supernovae through the observation of coincident hits in photomultipliers above the background. In this paper, the sensitivity of KM3NeT to a supernova explosion is estimated from detailed analyses of background data from the first KM3NeT detection units and simulations of the neutrino signal. The KM3NeT observational horizon (for a 5{\"I}ƒ discovery) covers essentially the Milky-Way and for the most optimistic model, extends to the Small Magellanic Cloud ({\^a}ˆ¼60kpc). Detailed studies of the time profile of the neutrino signal allow assessment of the KM3NeT capability to determine the arrival time of the neutrino burst with a few milliseconds precision for sources up to 5-8 kpc away, and detecting the peculiar signature of the standing accretion shock instability if the core-collapse supernova explosion happens closer than 3-5 kpc, depending on the progenitor mass. KM3NeT's capability to measure the neutrino flux spectral parameters is also presented.",

author = "S. Aiello and A. Albert and Garre, {S. A.} and Z. Aly and A. Ambrosone and F. Ameli and M. Andre and G. Androulakis and M. Anghinolfi and M. Anguita and G. Anton and M. Ardid and S. Ardid and J. Aublin and C. Bagatelas and B. Baret and {Du Pree}, {S. B.} and M. Bendahman and F. Benfenati and E. Berbee and {Van Den Berg}, {A. M.} and V. Bertin and S. Biagi and M. Bissinger and M. Boettcher and {Bou Cabo}, M. and J. Boumaaza and M. Bouta and M. Bouwhuis and C. Bozza and H. Br{\~A}{\^A}¢nza{\c s} and R. Bruijn and J. Brunner and E. Buis and R. Buompane and J. Busto and B. Caiffi and D. Calvo and A. Capone and V. Carretero and P. Castaldi and S. Celli and M. Chabab and N. Chau and A. Chen and S. Cherubini and V. Chiarella and T. Chiarusi and M. Circella and R. Cocimano and Coelho, {J. A. B.} and A. Coleiro and {Colomer Molla}, M and R. Coniglione and P. Coyle and A. Creusot and G. Cuttone and R. Dallier and {De Martino}, B. and {De Palma}, M. and {Di Marino}, M. and {Di Palma}, I. and D{\'i}az, {A. F.} and D. Diego-Tortosa and C. Distefano and A. Domi and C. Donzaud and D. Dornic and M. D{\"o}rr and D. Drouhin and T. Eberl and A. Eddyamoui and {Van Eeden}, T. and {Van Eijk}, D. and {El Bojaddaini}, I. and D. Elsaesser and A. Enzenh{\"o}fer and V. Espinosa and P. Fermani and G. Ferrara and Filipovi{\'c}, {M. D.} and F. Filippini and L.A. Fusco and O. Gabella and T. Gal and {Garcia Soto}, A. and F. Garufi and Y. Gatelet and N. Gei{\ss}elbrecht and L. Gialanella and E. Giorgio and Gozzini, {S. R.} and R. Gracia and K. Graf and D. Grasso and G. Grella and D. Guderian and C. Guidi and J. Haefner and H. Hamdaoui and {Van Haren}, H. and A. Heijboer and A. Hekalo and L. Hennig and Hern{\'a}ndez-Rey, {J. J.} and J. Hofest{\"a}dt and F. Huang and Ibnsalih, {W. I.} and G. Illuminati and James, {C. W.} and {De Jong}, M. and {De Jong}, P. and B.J. Jung and M. Kadler and P. Kalaczy{\'n}ski and O. Kalekin and U.F. Katz and {Khan Chowdhury}, {N. R.} and G. Kistauri and {Van Der Knaap}, F. and P. Kooijman and A. Kouchner and M. Kreter and V. Kulikovskiy and R. Lahmann and M. Lamoureux and G. Larosa and {Le Breton}, R. and {Le Stum}, S. and O. Leonardi and F. Leone and E. Leonora and N. Lessing and G. Levi and M. Lincetto and Clark, {M. Lindsey} and T. Lipreau and F. Longhitano and D. Lopez-Coto and L. Maderer and J. Ma{\'n}czak and K. Mannheim and A. Margiotta and A. Marinelli and C. Markou and L. Martin and J.A. Mart{\'i}nez-Mora and A. Martini and F. Marzaioli and S. Mastroianni and S. Mazzou and K.W. Melis and G. Miele and P. Migliozzi and E. Migneco and P. Mijakowski and L.S. Miranda and C.M. Mollo and M. Morganti and M. Moser and A. Moussa and R. Muller and M. Musumeci and L. Nauta and S. Navas and C.A. Nicolau and B.{\'O}. Fearraigh and M. O{\textquoteright}Sullivan and M. Organokov and A. Orlando and {Palacios Gonz{\'a}lez}, J. and G. Papalashvili and R. Papaleo and G. Passaro and C. Pastore and A.M. P{\u a}un and G.E. P{\u a}v{\u a}la{\c s} and C. Pellegrino and M. Perrin-Terrin and V. Pestel and P. Piattelli and C. Pieterse and K. Pikounis and O. Pisanti and C. Poir{\`e} and V. Popa and T. Pradier and G. P{\"u}hlhofer and S. Pulvirenti and O. Rabyang and F. Raffaelli and N. Randazzo and S. Razzaque and D. Real and S. Reck and G. Riccobene and S. Rivoire and A. Romanov and A. Rovelli and Greus, {F. S.} and D.F.E. Samtleben and {S{\'a}nchez Losa}, A. and M. Sanguineti and A. Santangelo and D. Santonocito and P. Sapienza and J. Schnabel and M.F. Schneider and J. Schumann and H.M. Schutte and J. Seneca and I. Sgura and R. Shanidze and A. Sharma and F. Simeone and A. Sinopoulou and B. Spisso and M. Spurio and D. Stavropoulos and S.M. Stellacci and M. Taiuti and Y. Tayalati and E. Tenllado and T. Thakore and H. Thiersen and S. Tingay and V. Tsourapis and E. Tzamariudaki and D. Tzanetatos and T. Unbehaun and {Van Elewyck}, V. and G. Vannoye and G. Vasileiadis and F. Versari and S. Viola and D. Vivolo and {De Wasseige}, G. and J. Wilms and R. Wojaczy{\'n}ski and {De Wolf}, E. and S. Zavatarelli and A. Zegarelli and D. Zito and Zornoza, {J. D.} and J. Z{\'u}{\~n}iga and N. Zywucka",

year = "2021",

doi = "10.1140/epjc/s10052-021-09187-5",

language = "English",

volume = "81",

journal = "European Physical Journal C",

issn = "1434-6044",

publisher = "Springer",

number = "5",

}

Aiello, S, Albert, A, Garre, SA, Aly, Z, Ambrosone, A, Ameli, F, Andre, M, Androulakis, G, Anghinolfi, M, Anguita, M, Anton, G, Ardid, M, Ardid, S, Aublin, J, Bagatelas, C, Baret, B, Du Pree, SB, Bendahman, M, Benfenati, F, Berbee, E, Van Den Berg, AM, Bertin, V, Biagi, S, Bissinger, M, Boettcher, M, Bou Cabo, M, Boumaaza, J, Bouta, M, Bouwhuis, M, Bozza, C, BrÃÂ¢nzaş, H, Bruijn, R, Brunner, J, Buis, E, Buompane, R, Busto, J, Caiffi, B, Calvo, D, Capone, A, Carretero, V, Castaldi, P, Celli, S, Chabab, M, Chau, N, Chen, A, Cherubini, S, Chiarella, V, Chiarusi, T, Circella, M, Cocimano, R, Coelho, JAB, Coleiro, A, Colomer Molla, M, Coniglione, R, Coyle, P, Creusot, A, Cuttone, G, Dallier, R, De Martino, B, De Palma, M, Di Marino, M, Di Palma, I, Díaz, AF, Diego-Tortosa, D, Distefano, C, Domi, A, Donzaud, C, Dornic, D, Dörr, M, Drouhin, D, Eberl, T, Eddyamoui, A, Van Eeden, T, Van Eijk, D, El Bojaddaini, I, Elsaesser, D, Enzenhöfer, A, Espinosa, V, Fermani, P, Ferrara, G, Filipović, MD, Filippini, F, Fusco, LA, Gabella, O, Gal, T, Garcia Soto, A, Garufi, F, Gatelet, Y, Geißelbrecht, N, Gialanella, L, Giorgio, E, Gozzini, SR, Gracia, R, Graf, K, Grasso, D, Grella, G, Guderian, D, Guidi, C, Haefner, J, Hamdaoui, H, Van Haren, H, Heijboer, A, Hekalo, A, Hennig, L, Hernández-Rey, JJ, Hofestädt, J, Huang, F, Ibnsalih, WI, Illuminati, G, James, CW, De Jong, M, De Jong, P, Jung, BJ, Kadler, M, Kalaczyński, P, Kalekin, O, Katz, UF, Khan Chowdhury, NR, Kistauri, G, Van Der Knaap, F, Kooijman, P, Kouchner, A, Kreter, M, Kulikovskiy, V, Lahmann, R, Lamoureux, M, Larosa, G, Le Breton, R, Le Stum, S, Leonardi, O, Leone, F, Leonora, E, Lessing, N, Levi, G, Lincetto, M, Clark, ML, Lipreau, T, Longhitano, F, Lopez-Coto, D, Maderer, L, Mańczak, J, Mannheim, K, Margiotta, A, Marinelli, A, Markou, C, Martin, L, Martínez-Mora, JA, Martini, A, Marzaioli, F, Mastroianni, S, Mazzou, S, Melis, KW, Miele, G, Migliozzi, P, Migneco, E, Mijakowski, P, Miranda, LS, Mollo, CM, Morganti, M, Moser, M, Moussa, A, Muller, R, Musumeci, M, Nauta, L, Navas, S, Nicolau, CA, Fearraigh, BÓ, O’Sullivan, M, Organokov, M, Orlando, A, Palacios González, J, Papalashvili, G, Papaleo, R, Passaro, G, Pastore, C, Păun, AM, Păvălaş, GE, Pellegrino, C, Perrin-Terrin, M, Pestel, V, Piattelli, P, Pieterse, C, Pikounis, K, Pisanti, O, Poirè, C, Popa, V, Pradier, T, Pühlhofer, G, Pulvirenti, S, Rabyang, O, Raffaelli, F, Randazzo, N, Razzaque, S, Real, D, Reck, S, Riccobene, G, Rivoire, S, Romanov, A, Rovelli, A, Greus, FS, Samtleben, DFE, Sánchez Losa, A, Sanguineti, M, Santangelo, A, Santonocito, D, Sapienza, P, Schnabel, J, Schneider, MF, Schumann, J, Schutte, HM, Seneca, J, Sgura, I, Shanidze, R, Sharma, A, Simeone, F, Sinopoulou, A, Spisso, B, Spurio, M, Stavropoulos, D, Stellacci, SM, Taiuti, M, Tayalati, Y, Tenllado, E, Thakore, T, Thiersen, H, Tingay, S, Tsourapis, V, Tzamariudaki, E, Tzanetatos, D, Unbehaun, T, Van Elewyck, V, Vannoye, G, Vasileiadis, G, Versari, F, Viola, S, Vivolo, D, De Wasseige, G, Wilms, J, Wojaczyński, R, De Wolf, E, Zavatarelli, S, Zegarelli, A, Zito, D, Zornoza, JD, Zúñiga, J & Zywucka, N 2021, 'The KM3NeT potential for the next core-collapse supernova observation with neutrinos', European Physical Journal C, vol. 81, no. 5, 445. https://doi.org/10.1140/epjc/s10052-021-09187-5

TY - JOUR

T1 - The KM3NeT potential for the next core-collapse supernova observation with neutrinos

AU - Aiello, S.

AU - Albert, A.

AU - Garre, S. A.

AU - Aly, Z.

AU - Ambrosone, A.

AU - Ameli, F.

AU - Andre, M.

AU - Androulakis, G.

AU - Anghinolfi, M.

AU - Anguita, M.

AU - Anton, G.

AU - Ardid, M.

AU - Ardid, S.

AU - Aublin, J.

AU - Bagatelas, C.

AU - Baret, B.

AU - Du Pree, S. B.

AU - Bendahman, M.

AU - Benfenati, F.

AU - Berbee, E.

AU - Van Den Berg, A. M.

AU - Bertin, V.

AU - Biagi, S.

AU - Bissinger, M.

AU - Boettcher, M.

AU - Bou Cabo, M.

AU - Boumaaza, J.

AU - Bouta, M.

AU - Bouwhuis, M.

AU - Bozza, C.

AU - BrÃÂ¢nzaş, H.

AU - Bruijn, R.

AU - Brunner, J.

AU - Buis, E.

AU - Buompane, R.

AU - Busto, J.

AU - Caiffi, B.

AU - Calvo, D.

AU - Capone, A.

AU - Carretero, V.

AU - Castaldi, P.

AU - Celli, S.

AU - Chabab, M.

AU - Chau, N.

AU - Chen, A.

AU - Cherubini, S.

AU - Chiarella, V.

AU - Chiarusi, T.

AU - Circella, M.

AU - Cocimano, R.

AU - Coelho, J. A. B.

AU - Coleiro, A.

AU - Colomer Molla, M

AU - Coniglione, R.

AU - Coyle, P.

AU - Creusot, A.

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PY - 2021

Y1 - 2021

N2 - The KM3NeT research infrastructure is under construction in the Mediterranean Sea. It consists of two water Cherenkov neutrino detectors, ARCA and ORCA, aimed at neutrino astrophysics and oscillation research, respectively. Instrumenting a large volume of sea water with âˆ¼ 6200 optical modules comprising a total of âˆ¼ 200 , 000 photomultiplier tubes, KM3NeT will achieve sensitivity to âˆ¼10MeV neutrinos from Galactic and near-Galactic core-collapse supernovae through the observation of coincident hits in photomultipliers above the background. In this paper, the sensitivity of KM3NeT to a supernova explosion is estimated from detailed analyses of background data from the first KM3NeT detection units and simulations of the neutrino signal. The KM3NeT observational horizon (for a 5Ïƒ discovery) covers essentially the Milky-Way and for the most optimistic model, extends to the Small Magellanic Cloud (âˆ¼60kpc). Detailed studies of the time profile of the neutrino signal allow assessment of the KM3NeT capability to determine the arrival time of the neutrino burst with a few milliseconds precision for sources up to 5-8 kpc away, and detecting the peculiar signature of the standing accretion shock instability if the core-collapse supernova explosion happens closer than 3-5 kpc, depending on the progenitor mass. KM3NeT's capability to measure the neutrino flux spectral parameters is also presented.

AB - The KM3NeT research infrastructure is under construction in the Mediterranean Sea. It consists of two water Cherenkov neutrino detectors, ARCA and ORCA, aimed at neutrino astrophysics and oscillation research, respectively. Instrumenting a large volume of sea water with âˆ¼ 6200 optical modules comprising a total of âˆ¼ 200 , 000 photomultiplier tubes, KM3NeT will achieve sensitivity to âˆ¼10MeV neutrinos from Galactic and near-Galactic core-collapse supernovae through the observation of coincident hits in photomultipliers above the background. In this paper, the sensitivity of KM3NeT to a supernova explosion is estimated from detailed analyses of background data from the first KM3NeT detection units and simulations of the neutrino signal. The KM3NeT observational horizon (for a 5Ïƒ discovery) covers essentially the Milky-Way and for the most optimistic model, extends to the Small Magellanic Cloud (âˆ¼60kpc). Detailed studies of the time profile of the neutrino signal allow assessment of the KM3NeT capability to determine the arrival time of the neutrino burst with a few milliseconds precision for sources up to 5-8 kpc away, and detecting the peculiar signature of the standing accretion shock instability if the core-collapse supernova explosion happens closer than 3-5 kpc, depending on the progenitor mass. KM3NeT's capability to measure the neutrino flux spectral parameters is also presented.

UR - https://hdl.handle.net/1959.7/uws:63260

U2 - 10.1140/epjc/s10052-021-09187-5

DO - 10.1140/epjc/s10052-021-09187-5

M3 - Article

SN - 1434-6044

VL - 81

JO - European Physical Journal C

JF - European Physical Journal C

IS - 5

M1 - 445

ER -

The KM3NeT potential for the next core-collapse supernova observation with neutrinos

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