Quantum Theory / Particle Physics
December 29, 2017
ring electron zitterbewegung helical parson hestenes
This Toroidal Solenoid Electron model describe the electron as an infinitesimal electric charge moving at the speed of light along a helical path. From this semiclassical model, we can derive all the electron characteristics as the electron magnetic moment, the g-factor, its natural frequency, the value of Quantum Hall Resistance and the value of the Magnetic Flux Quantum. In this new work, we obtain other features such as the helicity, the chirality, the Schwinger limits and, especially, the Toroidal Moment of the electron. The experimental detection of the Toroidal Moment of the electron could be used to validate this model.
The toroidal moment of the electron is a direct consequence of Helical Solenoid Electrón model and it is calculated qualitatively and quantitatively. This feature of the electron (and any other subatomic particle) is not contained in the standard model, but appears as a requirement to explain the violation of the parity symmetry of the subatomic particles. The existence of a toroidal moment has been experimentally verified in nuclei of heavy atoms and also serves as basis to explain the dark matter.