Study on a Unified Schematic Model of Elementary Particles: Leptons, Photons and Quarks in Material Engineering and its Applications

Ji Hua He

doi:10.4028/www.scientific.net/AMR.578.162

Paper Titles

Research on Refractory Material Corrosion in Steelmaking Engineering
p.146

Performance of Concrete at Sustained High Temperature in Material Applications
p.150

Effects of Sustained Elevated Temperature on Concrete Properties in Material Engineering and its Applications
p.154

Microstructure Features during High Temperature Tensile Deformation of an AZ31 Alloy with Nd and La Additions
p.158

Study on a Unified Schematic Model of Elementary Particles: Leptons, Photons and Quarks in Material Engineering and its Applications
p.162

Implementation of Camouflage Tent Cloth Materials and Camouflage Effect Evaluation
p.166

Properties Investigation for Single-Defect Square-Lattice Photonic Crystal Slab Cavity in Crystal Material Application
p.170

Study on Preparation and Evaluation of Micro Zirconia Particles Used in Drilling Fluid
p.175

Application Research of Fibrous Ultrafine TiO₂ Particles in Drilling Fluid
p.179

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 578Study on a Unified Schematic Model of Elementary...

Study on a Unified Schematic Model of Elementary Particles: Leptons, Photons and Quarks in Material Engineering and its Applications

Abstract:

Leptons and quarks are the elementary particles constituting all of matter. Here we show a unified schematic model of leptons, photons and quarks with certain structures and sizes. We thought all matters are time variant three dimensional electromagnetic fields. We used a Taiji spinor to describe the neutrinos, two Taiji spinors to describe electrons, muons, taus and photons, three Taiji spinors to describe quarks. We found there are same couple coefficients of leptons and quarks in each same generation while there are different couple coefficients between leptons and quarks of three generations. The electromagnetic fields of spin 1/2 leptons and quarks are all divergent, so every particle sends out energy at all times. The study of the structures of these elementary particles will contribute to the use of nuclear energy material.