BEGIN:VCALENDAR VERSION:2.0 PRODID:researchseminars.org CALSCALE:GREGORIAN X-WR-CALNAME:researchseminars.org BEGIN:VEVENT SUMMARY:Andras Kovacs DTSTART:20240615T140000Z DTEND:20240615T160000Z DTSTAMP:20260423T010943Z UID:QMFNoT/55 DESCRIPTION:Title: A particle model based on direct interpretation of Compton scattering meas urements and gamma spectroscopy\nby Andras Kovacs as part of QM Founda tions & Nature of Time seminar\n\n\nAbstract\nI present a particle model t hat is based on a direct interpretation of Compton scattering measurements \, gamma spectroscopy\, and magnetic moment data. To correctly interpret n uclear measurements\, we strictly adhere to foundational Physics laws\, su ch as the Maxwell and Klein-Nishina equations. It turns out that an electr on's and a proton's internal structures can be modeled analogously\; the m ain difference is the topology of their Zitterbewegung. This result implie s that the neutron-proton difference is the additional presence of a negat ive elementary charge\, i.e. the neutron has two sub-particles. We develop a precise mass measurement method for measuring the negative charge's mas s within the neutron\, and also survey relevant experiments. Numerous expe riments converge to the same result: the neutron comprises a proton and a nuclear electron\, whose mass is 1.554 MeV\, and the binding energy of the se two neutron components is 0.26 MeV. Our work clarifies that all tangibl e matter comprises three elementary particle types: electron\, nuclear ele ctron\, and proton. We begin the discussion of unstable particles by consi dering magnetic moment difference between an electron and muon. Finally\, we discuss what pion-related nuclear reactions reveal about the pion's int ernal structure. The reviewed experimental data lead to a reasonable appro ximation of the muon's and pion's internal structures as well. The muon tu rns out to be an elementary particle\, the neutral pion has two sub-partic les\, while the charge pion has three sub-particles.\n LOCATION:https://researchseminars.org/talk/QMFNoT/55/ END:VEVENT END:VCALENDAR