-
lifetime of the proton.
KamiokaNDE-I
operated 1983–1985. The
KamiokaNDE-II
experiment was a
major step
forward from
KamiokaNDE, and made a significant...
- 137°18′37.1″E / 36.425722°N 137.310306°E / 36.425722; 137.310306 Super-
Kamiokande (abbreviation of Super-Kamioka
Neutrino Detection Experiment, also abbreviated...
- Hyper-
Kamiokande (also
called Hyper-K or HK) is a
neutrino observatory and
experiment under construction in Hida, Gifu and in Tokai,
Ibaraki in ****an....
- 2023 and last
until commencement of the
successor of T2K – the Hyper-
Kamiokande experiment in 2027.: 12, 20 T2K was the
first experiment which observed...
- 1034–1036 years. An
upgraded version, Hyper-
Kamiokande,
probably will have
sensitivity 5–10
times better than Super-
Kamiokande.
Despite the lack of observational...
- for
neutrino experiments at the
Kamioka Observatory –
Kamiokande and its successor, Super-
Kamiokande. In 2015, he was
awarded the
Nobel Prize in Physics...
- extra-solar
sources of neutrinos.
Compared to
underground detectors like Super-
Kamiokande in ****an,
AMANDA was
capable of
looking at
higher energy neutrinos because...
- of
neutrino astronomy. His work with the
neutrino detectors Kamiokande and Super-
Kamiokande was
instrumental in
detecting solar neutrinos,
providing experimental...
- as
searching for
proton decay. In 1998, the Super-
Kamiokande was the site of the Super-
Kamiokande experiment which led to the
discovery of
neutrino oscillation...
-
Kamiokande and IMB. However,
because very few
neutrino events were detected, it was
difficult to draw any
conclusions with certainty. If
Kamiokande and...
