Explore Kamiokande through 10+ example sentences from English. Ideal for language learners, writers and word enthusiasts.
Kamiokande in a sentence
Using Kamiokande
- In the example corpus, kamiokande often appears in combinations such as: the kamiokande, kamiokande experiment.
Context around Kamiokande
- Average sentence length in these examples: 22.8 words
- Position in the sentence: 9 start, 5 middle, 4 end
- Sentence types: 18 statements, 0 questions, 0 exclamations
Corpus analysis for Kamiokande
- In this selection, "kamiokande" usually appears near the start of the sentence. The average example has 22.8 words, and this corpus slice is mostly made up of statements.
- Around the word, super, astrophysics, detector, experiment and tank stand out and add context to how "kamiokande" is used.
- Recognizable usage signals include from super kamiokande online daq and however super kamiokande found that. That gives this page its own corpus information beyond isolated example sentences.
- By corpus frequency, "kamiokande" sits close to words such as aav, abdicating and abductor, which helps place it inside the broader word index.
Example types with kamiokande
The same corpus examples are grouped by length and sentence type, making it easier to see the contexts in which the word appears:
During the Super-Kamiokande I running, this never occurred. (9 words)
Super-Kamiokande is currently the largest detector for observation of proton decay. (12 words)
The Kamiokande experiment, in Japan, independently observed neutrinos from SN 1987a at the same time. (15 words)
The ability of the Kamiokande experiment to observe the direction of electrons produced in solar neutrino interactions allowed experimenters to directly demonstrate for the first time that the sun was a source of neutrinos. (34 words)
However, Super-Kamiokande found that the number of upward going muon neutrinos (generated on the other side of the Earth) is half of the number of downward going muon neutrinos in 1998. (32 words)
Super-Kamiokande was able to detect elastic scattering (ES) events which, due to the charged-current contribution to scattering, has a relative sensitivity to s and heavy-flavor neutrinos of ∼7:1. (32 words)
Example sentences (18)
This led to the construction of Super-Kamiokande, with fifteen times the water and ten times as many PMTs as Kamiokande.
Air purification system Purified Air is supplied in the gap between the water surface and the top of the Super-Kamiokande tank.
Despite successes in neutrino astronomy and neutrino astrophysics, Kamiokande did not achieve its primary goal, the detection of proton decay.
Detector The Super-Kamiokande (SK) is a Cherenkov detector used to study neutrinos from different sources including the Sun, supernovae, the atmosphere, and accelerators for proton decay.
During the Super-Kamiokande I running, this never occurred.
Event data from Super-Kamiokande online DAQ system basically contains a list of number of hit PMT, TDC and ADC counts, GPS time-stamps and other housekeeping data.
For this reason this interaction is dominated by electron neutrinos, and this is the channel through which the Super-Kamiokande (Super-K) detector can observe solar neutrinos.
However, Super-Kamiokande found that the number of upward going muon neutrinos (generated on the other side of the Earth) is half of the number of downward going muon neutrinos in 1998.
However, the non-observation of proton decay at the Super-Kamiokande neutrino observatory rules out the simplest GUTs, including SU(5) and SO(10).
In the Super-Kamiokande detector, Rmean for uniformly distributed Monte Carlo events shows that no tail exists below ⩽1000 cm.
Starting in 1998, experiments began to show that solar and atmospheric neutrinos change flavors (see Super-Kamiokande and Sudbury Neutrino Observatory ).
Super Kamiokande is a large volume of water surrounded by photomultiplier tubes that watch for the Cherenkov radiation emitted when an incoming neutrino creates an electron or muon in the water.
Super-Kamiokande is currently the largest detector for observation of proton decay.
Super-Kamiokande was able to detect elastic scattering (ES) events which, due to the charged-current contribution to scattering, has a relative sensitivity to s and heavy-flavor neutrinos of ∼7:1.
The ability of the Kamiokande experiment to observe the direction of electrons produced in solar neutrino interactions allowed experimenters to directly demonstrate for the first time that the sun was a source of neutrinos.
The Kamiokande experiment, in Japan, independently observed neutrinos from SN 1987a at the same time.
The phases and their main characteristics are summarised in table 1. citation A cross-section of the Super-Kamiokande detector.
The work was completed in June 2006, whereupon the detector was renamed Super-Kamiokande-III.
Common combinations with kamiokande
These word pairs occur most frequently in English texts: