Possible Unified Models of Elementary Particles with Two Neutrinos
Abstract
Possible unified models of elementary particles are discussed assuming the existence of two kinds of neutrino accompanying with electron and muon respectively. The discussions are focused on the Nagoya model which is based on the Sakata model of baryons and mesons and the Gamba-Marshak-Okubo symmetry. In its connection the following assumptions are taken: i) Fundamental particles among baryons and mesons have one-to-one correspondence with leptons or their linear combinations. The correspondence is realized through a kind of ``matter''. ii) Basic leptons do not transmute each other by the strong interaction between the fundamental baryons. There are two essentially types of model. One depends on the existence of two neutrinos which are Dirac particles, and the other is related with two Majorana neutrinos. With regard to the models, the difference between electron and muon and the asymmetry of Λ-pionic decay are also discussed.
- Publication:
-
Progress of Theoretical Physics
- Pub Date:
- October 1962
- DOI:
- 10.1143/PTP.28.675
- Bibcode:
- 1962PThPh..28..675K