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Neutrinos, light, matter, and the unification of gravitational and nuclear forces
The discovery of neutrinos and the measurement of their masses are significant events in the history of science. The Rotating Lepton Model provides a useful basis for understanding particles and nuclear reactions, highlighting the importance of Special Relativity, Gravity, and Quantum Mechanics in our universe. Professor Constantinos G. Vayenas explains.
Thermodynamics of hadronization: The rotating lepton model explains key CERN experiments
Constantinos G. Vayenas, Professor at the University of Patras, Academy of Athens, explores the thermodynamics of hadronization, using the Rotating Lepton Model and two key CERN experiments.
Neutrino production in proton-proton collisions supports the rotating lepton model
Direct observation of neutrino production in proton-proton (pp) collisions at CERN LHC lend strong support to the Rotating Lepton Model, Constantinos G. Vayenas(1), Dionysios Tsousis(1,2) and Eftyhia Martino1 ((1)University of Patras, (2)Stanford University) tell us.
The rotating lepton model: Electron and positron catalysis of chemical and nuclear synthesis
Professor Emeritus Constantinos Vayenas from the University of Patras and PhD student Dionysios Tsousis from Stanford University discuss electron and positron catalysis in the CERN e+e- annihilation experiments via the Rotating Lepton Model.
The Standard Model (SM) and the goal of force unification
The unification of gravitational, Strong and Weak Forces has been a long-sought goal [1-3]. In general, force unification refers to the idea that it is possible to view all of the forces of nature as manifestations of one single, all-encompassing force.