We live in the quantum 4-dimensional Minkowski space-time

TL;DR

This paper proposes a quantum 4D Minkowski space-time framework incorporating an extended gauge group, aiming to unify particle physics concepts and address fundamental questions about the origin of mass and particles.

Contribution

It introduces a unique extension of the Standard Model based on a specific gauge group, explaining neutrino oscillations and lepton-flavor violations naturally.

Findings

Predicts neutrino oscillations

Explains lepton-flavor-violating decays

Provides insights into the origin of mass and particles

Abstract

We try to define "our world" by stating that "we live in the quantum 4-dimensional Minkowski space-time with the force-fields gauge group $SU_c(3) \times SU_L(2) \times U(1) \times SU_f(3)$ built-in from the outset". We begin by explaining what "space" and "time" are meaning for us - the 4-dimensional Minkowski space-time, then proceeding to the quantum 4-dimensional Minkowski space-time. In our world, there are fields, or, point-like particles. Particle physics is described by the so-called Standard Model. Maybe I should explain why, how, and what my Standard Model would be everybody's "Standard Model" some day. Following the thinking underlying the minimal Standard Model and based on the gauge group $SU_c(3) \times SU_L(2) \times U(1) \times SU_f(3)$, the extension, which is rather unique, derives from the family concept that there are three generations of quarks, on (123), and of leptons, on another (123). It yields neutrino oscillations in a natural manner. It also predicts a variety of lepton-flavor-violating rare decays. At the end of the Standard Model, we will provide some clear answers toward two "origin" questions: What is the origin of mass? Another one: what is the origin of fields (point-like particles)?