Neutrino Oscillation - Stony Brook NN Group
... nm is visible only to SNO But not to Homestake, Kamiokande or SuperKamiokande. Even if solar neutrino ne changes its flavour to nm or nt total flux of solar neutrino can be measured by SNO Solar flux measured: 6.4+-1.6 x 106 cm-2 s-1 ...
... nm is visible only to SNO But not to Homestake, Kamiokande or SuperKamiokande. Even if solar neutrino ne changes its flavour to nm or nt total flux of solar neutrino can be measured by SNO Solar flux measured: 6.4+-1.6 x 106 cm-2 s-1 ...
Handout. Neutrino Relics from the Big Bang
... Why is our universe dominated by matter and not antimatter? Matterantimatter particle pairs can be created from energy and can annihilate one another to become energy. Why are there any particles at all left over after the big bang? The mass of our universe (at least the non-dark-matter component) i ...
... Why is our universe dominated by matter and not antimatter? Matterantimatter particle pairs can be created from energy and can annihilate one another to become energy. Why are there any particles at all left over after the big bang? The mass of our universe (at least the non-dark-matter component) i ...
Detecting particles in particle physics
... Muon punches its way out of the detector “Hits” left in the detectors – this is the only information we have to “reconstruct” the event ...
... Muon punches its way out of the detector “Hits” left in the detectors – this is the only information we have to “reconstruct” the event ...
ASEPS_Poster_Ishihara1_A0
... neutrino (RMN). The product of two masses of LMN and RMN is equal to a Dirac particle mass squared. Therefore, when the mass of RMN is extremely large, the one of LMN naturally becomes very small. The LMN is considered as known neutrino weakly interacting. In the Leptogenesis scenario, heavy RMNs ha ...
... neutrino (RMN). The product of two masses of LMN and RMN is equal to a Dirac particle mass squared. Therefore, when the mass of RMN is extremely large, the one of LMN naturally becomes very small. The LMN is considered as known neutrino weakly interacting. In the Leptogenesis scenario, heavy RMNs ha ...
Bruno Pontecorvo
Bruno Pontecorvo (Russian: Бру́но Макси́мович Понтеко́рво, Bruno Maksimovich Pontekorvo; 22 August 1913 – 24 September 1993) was an Italian nuclear physicist, an early assistant of Enrico Fermi and then the author of numerous studies in high energy physics, especially on neutrinos. According to Oleg Gordievsky (the highest-ranking KGB officer ever to defect) and Pavel Sudoplatov (former deputy director of Foreign Intelligence for the Soviet Union), Pontecorvo was also a Soviet agent. Convinced communist, he defected to the Soviet Union in 1950, where he continued his research on the decay of the muon and on neutrinos. The prestigious Pontecorvo Prize was instituted in his memory in 1995.