Authors: Satoshi Hanamura
This paper aims to present intuitive imagery of the angular momentum of electrons, which has not been attempted yet. As electrons move similarly to a slinky spring, we first discuss the motions of a slinky progressing down a stairway. The spin angular momentum under a magnetic field gradient is analogous to a slinky traveling down a stairway inclined perpendicular to the advancing direction. The study extends our previous work from a single virtual oscillating photon to a particle moving linearly in one direction. The entire mass-energy of the electrons is assumed as thermal potential energy. Particles (spinors) possessing this energy emit all their energy by radiation, which is then absorbed by a paired spinor particle. This transfer of radiative energy is accomplished by a virtual photon enveloping the spinor particles. If one electron is a composite of an emitter particle, absorber particles, and transmitter particle, it can discretely move like a slinky spring.
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