Particle physics models, topological defects and electroweak baryogenesis

Two particles, called at that time and , were observed to decay via the weak interaction to and final states, respectively, which necessarily had different final-state parities. However, the and had properties, including the near equality of their masses, which strongly suggested that they were in f

**nuclear And Particle Physics** Is An Accessible, Balanced Introduction To The Subject And Provides A Readable And Up-to-date Overview Of Both The Theoretical And Experimental Aspects Of Nuclear And Particle Physics. The Emphasis Is On The Phenomenological Approach To Understanding Experimental Phe

The dynamics of topological defects (dislocations) in charge density waves (CDW's) is largely affected by the quasi-particle dynamics in the cores of the dislocations. The dislocations mediate the conversion of the electron number between condensate and quasi-particle sub-systems. This is especially

Nucleons and pions have been thought of as elementary particles for a long time. It took over 30 years of trial and error to realize they are composites made of quarks. During the process, there were two turning points. One was the discovery of the strange particles, which began in the late 1940s, a

Fractional dynamics is an attractive framework for understanding the complex phenomena that are likely to emerge beyond the energy range of the Standard Model for particle physics (SM). Using fractional dynamics and complex-scalar field theory as a baseline, our work explores how physics on the high