Model of the Fundamental Fermions Structure (First Generation)
Abstract
Key words: Model of the Fermions Structure, Gell-Mann–Nishijima formula, z - projection of isospin, hypercharge
Annotation: There is developed the model of fermions structure, according to which each fermions of the first generation contains six elementary electric charges, the value of which is 1/6 of the electron charge without consideration of the sign. There is showed the relationship between these charges and such characteristics of the particles, as the projection of the isospin (projection of weak isospin), hypercharge (weak hypercharge), and color. Visually, using the unrolling, there is defined the condition for confinement of particles, that consist of particles from the first generation. Thereisexploredthebetadecayunrolling.
Volltext:
PDF (Russian)Literaturhinweise
Belokurov VV, Shirkov LV. The theory of particle interaction. Moscow, 1986; 160.
Gottfried K, Weisskopf B. Concepts of elementary particle physics. Moscow, 1988; 240.
Zeldovich YB, Blinnikov SI, Shakur NI. Physical fundamentals of the structure and evolution of stars. Moscow, 1981; 150.
Ogawa S., Sawada S., Nakagawa M. Composite Model of elementary particles: trans. from Japanese. Moscow, 1983; 286.
Raines F. Neutrinos from the particle poltergeist (Nobel lecture in Stockholm, 1995.): Successes of physical sciences, 1996, Volume 166, number 12; 1362- 1369.
Basdevant J-L, Rich J, Spiro M. Fundamentals In Nuclear Physics From Nuclear Structure to Cosmology, Springer Science+Business Media, Inc, 2004; 515.
Bettini A. Introduction to Elementary Particle Physics (Second Edition), University Printing House, Cambridge CB2 8BS, United Kingdom, 2014; 493.
Diaz-Cruz JL, Rosado A. Symmetry principles and observation laws: Fundamentals of phisics, 2013, Vol. 1; 1-7.
Fritzsch H. Elementary Particles. Building Blocks of Matter, World Scientific Publishing Co. Pte. Ltd. Singapore, 2005; 118.
Gell-Mann M. A schematic Model of Baryons and Mesons. Physics Letters, 1964, v. 8, № 3; 214-215.
Grinstein B. TASI-2013 Lectures on Flavor Physics. San Diego, 2014; 74.
Harari H. A schematic model of quarks and leptons: Physics Letters B, 1979, v. 86; 83–86.
Harari H, Seiberg N. The Rishon model: Nuclear Physics B, 1982, v. 204; 141-167.
Harari H. The Structure of Quarks and Leptons: Scientific American, 1983, № 1 (April); 56-64.
Iliopoupos J. Introduction to the STANDARD MODEL of the Electro-Weak Interactions, Paris, France, CERN Summer School, 2012; 44.
Lawrie IDA. Unified Grand Tour of Theoretical Physics Second Edition Published by Institute of Physics Publishing, wholly owned by The Institute of Physics, London, 2002; 580.
Martin BR, Shaw G. Particle physics: Third Edition, JohnWiley & Sons Ltd, The Atrium, Southern Gate, Chichester, West Sussex, U. K., 2008; 442.
Nambu Y. Quarks. Frontiers in Elementary particle Physics, World Scientific Publishing Co. Pte. Ltd. Philadelphia, Singapore, 1985; 243.
Walet N. P615: Nuclear and Particle Physics. UMIST, Manchester, U.K., 2001; 78.
Refbacks
- Im Moment gibt es keine Refbacks