Performance of SK-Gd’s Upgraded Real-time Supernova Monitoring System

Kashiwagi, Y.; Abe, K.; Bronner, C.; Hayato, Y.; Hiraide, K.; Hosokawa, K.; Ieki, K.; Ikeda, M.; Kameda, J.; Kanemura, Y.; Kaneshima, R.; Kataoka, Y.; Miki, S.; Mine, S.; Miura, M.; Moriyama, S.; Nakano, Y.; Nakahata, M.; Nakayama, S.; Noguchi, Y.; Sato, K.; Sekiya, H.; Shiba, H.; Shimizu, K.; Shiozawa, M.; Sonoda, Y.; Suzuki, Y.; Takeda, A.; Takemoto, Y.; Tanaka, H.; Yano, T.; Han, S.; Kajita, T.; Okumura, K.; Tashiro, T.; Tomiya, T.; Wang, X.; Yoshida, S.; Fernandez, P.; Labarga, L.; Ospina, N.; Zaldivar, B.; Pointon, B. W.; Kearns, E.; Raaf, J. L.; Wan, L.; Wester, T.; Bian, J.; Griskevich, N. J.; Locke, S.; Smy, M. B.; Sobel, H. W.; Takhistov, V.; Yankelevich, A.; Hill, J.; Jang, M. C.; Lee, S. H.; Moon, D. H.; Park, R. G.; Bodur, B.; Scholberg, K.; Walter, C. W.; Beauchêne, A.; Drapier, O.; Giampaolo, A.; Mueller, Th. A.; Santos, A. D.; Paganini, P.; Quilain, B.; Rogly, R.; Nakamura, T.; Jang, J. S.; Machado, L. N.; Learned, J. G.; Choi, K.; Iovine, N.; Cao, S.; Anthony, L. H. V.; Martin, D.; Prouse, N. W.; Scott, M.; Sztuc, A. A.; Uchida, Y.; Berardi, V.; Catanesi, M. G.; Radicioni, E.; Calabria, N. F.; Langella, A.; De Rosa, G.; Collazuol, G.; Iacob, F.; Mattiazzi, M.; Ludovici, L.; Gonin, M.; Périssé, L.; Pronost, G.; Fujisawa, C.; Maekawa, Y.; Nishimura, Y.; Okazaki, R.; Akutsu, R.; Friend, M.; Hasegawa, T.; Ishida, T.; Kobayashi, T.; Jakkapu, M.; Matsubara, T.; Nakadaira, T.; Nakamura, K.; Oyama, Y.; Sakashita, K.; Sekiguchi, T.; Tsukamoto, T.; Bhuiyan, N.; Burton, G. T.; Di Lodovico, F.; Gao, J.; Goldsack, A.; Katori, T.; Migenda, J.; Ramsden, R. M.; Xie, Z.; Zsoldos, S.; Suzuki, A. T.; Takagi, Y.; Takeuchi, Y.; Zhong, H.; Feng, J.; Feng, L.; Hu, J. R.; Hu, Z.; Kawaue, M.; Kikawa, T.; Mori, M.; Nakaya, T.; Wendell, R. A.; Yasutome, K.; Jenkins, S. J.; McCauley, N.; Mehta, P.; Tarrant, A.; Fukuda, Y.; Itow, Y.; Menjo, H.; Ninomiya, K.; Yoshioka, Y.; Lagoda, J.; Lakshmi, S. M.; Mandal, M.; Mijakowski, P.; Prabhu, Y. S.; Zalipska, J.; Jia, M.; Jiang, J.; Jung, C. K.; Shi, W.; Wilking, M. J.; Yanagisawa, C.; Harada, M.; Hino, Y.; Ishino, H.; Koshio, Y.; Nakanishi, F.; Sakai, S.; Tada, T.; Tano, T.; Ishizuka, T.; Barr, G.; Barrow, D.; Cook, L.; Samani, S.; Wark, D.; Holin, A.; Nova, F.; Jung, S.; Yang, B. S.; Yang, J. Y.; Yoo, J.; Fannon, J. E. P.; Kneale, L.; Malek, M.; McElwee, J. M.; Thiesse, M. D.; Thompson, L. F.; Wilson, S. T.; Okazawa, H.; Kim, S. B.; Kwon, E.; Seo, J. W.; Yu, I.; Ichikawa, A. K.; Nakamura, K. D.; Tairafune, S.; Nishijima, K.; Eguchi, A.; Nakagiri, K.; Nakajima, Y.; Shima, S.; Taniuchi, N.; Watanabe, E.; Yokoyama, M.; de Perio, P.; Fujita, S.; Jesús-Valls, C.; Martens, K.; Tsui, K. M.; Vagins, M. R.; Xia, J.; Kuze, M.; Izumiyama, S.; Matsumoto, R.; Ishitsuka, M.; Ito, H.; Ommura, Y.; Shigeta, N.; Shinoki, M.; Yamauchi, K.; Yoshida, T.; Gaur, R.; Gousy-Leblanc, V.; Hartz, M.; Konaka, A.; Li, X.; Chen, S.; Xu, B. D.; Zhang, B.; Posiadala-Zezula, M.; Boyd, S. B.; Edwards, R.; Hadley, D.; Nicholson, M.; O’Flaherty, M.; Richards, B.; Ali, A.; Jamieson, B.; Amanai, S.; Marti, Ll.; Minamino, A.; Suzuki, S.; ,

doi:10.3847/1538-4357/ad4d8e

ApJ

2024

DOI: 10.3847/1538-4357/ad4d8e

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Performance of SK-Gd’s Upgraded Real-time Supernova Monitoring System

Y. Kashiwagi,

K. Abe,

C. Bronner

et al.

Abstract: Among multimessenger observations of the next Galactic core-collapse supernova, Super-Kamiokande (SK) plays a critical role in detecting the emitted supernova neutrinos, determining the direction to the supernova (SN), and notifying the astronomical community of these observations in advance of the optical signal. In 2022, SK has increased the gadolinium dissolved in its water target (SK-Gd) and has achieved a Gd concentration of 0.033%, resulting in enhanced neutron detection capability, which in turn enables… Show more

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Cited by 1 publication

References 69 publications

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Impacts of Black-hole-forming Supernova Explosions on the Diffuse Neutrino Background

Nakazato,

Akaho,

Ashida

et al. 2024

ApJ

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The flux spectrum, event rate, and experimental sensitivity are investigated for the diffuse supernova (SN) neutrino background (DSNB), which originates from past stellar collapses and is also known as a supernova relic neutrino background. For this purpose, the contribution of collapses that lead to successful supernova explosion and black hole (BH) formation simultaneously, which are suggested to be a nonnegligible population from the perspective of Galactic chemical evolution, is taken into account. If the BH-forming SNe involve matter fallback onto the protoneutron star for the long term, their total emitted neutrino energy becomes much larger than that of ordinary SNe and failed SNe (BH formation without explosion). Then, in the case of the normal mass hierarchy in neutrino oscillations and with half of all core-collapse SNe being BH-forming SNe, the expected event rate according to the current DSNB model is enhanced by up to a factor of 2 due to the BH-forming SNe. While substantial uncertainties exist regarding the duration of the matter fallback, which determines the total amount of emitted neutrinos, and the fraction of BH-forming SNe, the operation time required to detect the DSNB at Hyper-Kamiokande would be reduced by such contribution in any case.

show abstract

Impacts of Black-hole-forming Supernova Explosions on the Diffuse Neutrino Background

Nakazato,

Akaho,

Ashida

et al. 2024

ApJ

View full text Add to dashboard Cite

show abstract

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Performance of SK-Gd’s Upgraded Real-time Supernova Monitoring System

Cited by 1 publication

References 69 publications

Impacts of Black-hole-forming Supernova Explosions on the Diffuse Neutrino Background

Impacts of Black-hole-forming Supernova Explosions on the Diffuse Neutrino Background

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