- Main
Low-energy astrophysics with KamLAND
- Kawada, N;
- Obara, S;
- Ishidoshiro, K;
- Grant, C;
- O’Donnell, T;
- Dell’Oro, S;
- Abe, S;
- Asami, S;
- Gando, A;
- Gando, Y;
- Gima, T;
- Goto, A;
- Hachiya, T;
- Hata, K;
- Hayashida, S;
- Hosokawa, K;
- Ichimura, K;
- Ieki, S;
- Ikeda, H;
- Inoue, K;
- Kamei, Y;
- Kishimoto, Y;
- Kinoshita, T;
- Koga, M;
- Maemura, N;
- Mitsui, T;
- Miyake, H;
- Nakamura, K;
- Nakamura, K;
- Nakamura, R;
- Ozaki, H;
- Sakai, T;
- Sambonsugi, H;
- Shimizu, I;
- Shirai, J;
- Shiraishi, K;
- Suzuki, A;
- Suzuki, Y;
- Takeuchi, A;
- Tamae, K;
- Ueshima, K;
- Wada, Y;
- Watanabe, H;
- Yoshida, Y;
- Ichikawa, AK;
- Kozlov, A;
- Chernyak, D;
- Takemoto, Y;
- Yoshida, S;
- Umehara, S;
- Fushimi, K;
- Nakamura, KZ;
- Yoshida, M;
- Berger, BE;
- Fujikawa, BK;
- Learned, JG;
- Maricic, J;
- Axani, SN;
- Winslow, LA;
- Fu, Z;
- Ouellet, J;
- Efremenko, Y;
- Karwowski, HJ;
- Markoff, DM;
- Tornow, W;
- Li, A;
- Detwiler, JA;
- Enomoto, S;
- Decowski, MP
- et al.
Abstract
We present two results of a search for MeV-scale neutrino and anti-neutrino events correlated with gravitational wave events/candidates and large solar flares with KamLAND. The KamLAND detector is a large-volume neutrino detector using liquid scintillator, which is located at 1 km underground under the top of Mt. Ikenoyama in Kamioka, Japan. KamLAND has multiple reaction channels to detect neutrinos. Electron antineutrino can be detected via inverse-beta decay with 1.8 MeV neutrino energy threshold. All flavors of neutrinos can be detected via neutrino-electron scattering without neutrino energy threshold. KamLAND has continued the neutrino observation since 2002 March. We use the data set of 60 gravitational waves provided by the LIGO/Virgo collaboration during their second and third observing runs and search for coincident electron antineutrino events in KamLAND. We find no significant coincident signals within a ±500 s timing window from each gravitational wave and present 90% C.L. upper limits on the electron antineutrino fluence between 108–1013 cm−2 for neutrino energies of 1.8–111 MeV. For a solar-flare neutrino search at KamLAND, we determine the timing window using the solar X-ray data set provided by the GOES satellite series from 2002 to 2019 and search for the excess of coincident event rate on the all-flavor neutrinos. We find no significant event rate excess in the flare time windows and get 90% C.L. upper limits on the fluence of neutrinos of all flavors (electron anti-neutrinos) between 1010–1013 cm−2 (108–1013 cm−2) for neutrino energies in the energy range of 0.4–35 MeV.
Main Content
Enter the password to open this PDF file:
-
-
-
-
-
-
-
-
-
-
-
-
-
-