The Standard Model is a modern theory of all interactions. This book describes a new interpretation of empirical relations between particle masses, parameters of the Standard Model and stable mass and energy intervals in nuclear data. The real world consists of nucleons and electrons with their masses determined with the highest accuracy. Exact integer relations between these values were found to be similar to relations between stable intervals in nuclear data. Combined analysis of these two sets of data, stable nuclear intervals and particle mass spectrum, based on their common Quantum Chromo-Dynamical (QCD) origin, is performed for the first time. Many relations additional to that between the electron and nucleon masses were found. New findings are in accordance with Y. Nambu's suggestion that the analysis of particle masses should be used for the development of the Standard Model. The interpretation of Standard Model parameters is based on the electron and its fermion symmetry.
Sergey Sukhoruchkin graduated from Moscow State University, Russia. He completed his PhD and continued his work as a Senior Scientist at the Theoretical and Experimental Physics Institute, before working at the Petersburg Nuclear Physics Institute, Russia. He started to study nuclear physics as a neutron resonance spectroscopist, and the first results were reported at the 1st Geneva Conference in 1955. To confirm the presence of non-statistical effects in nuclear data and the distinguished character of the Standard Model parameters, including me and m, empirical data on nucleon binding energies and excitations were used. During the study of the "tuning effect" in nuclear data and particle masses he published 20 volumes of nuclear data compilations between 1998 and 2016. He has reported basic relations in nuclear data and the particle mass spectrum in more than 50 publications.
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