A Novel Two-Particle Steady-State Wave Equation

There is not only the Coulomb force in the orbiting motion between two charged particles, but also a certain magnetic moment coupling interaction. Therefore, according to the macroscopic phenomenon of dipoles, this paper revises the relevant terms of the two-particle stationary Schrödinger equation. The correction in the hydrogen atom and U91+ ion (hydrogen) calculation of hyperfine structure has high calculation precision, such as lamb shift U91+ ions and the theoretical value of quantum electrodynamics basic same. In terms of hyperfine splitting, the developed series is more than the number of quantum electrodynamics and puts forward the concept of the electron orbital tilt angle for the first time. For example, the orbital inclination of hydrogen atom is approximately 0.000069207 radians, and that of U ion is approximately 0.000041427 radians. The results showed that it is because of the existence of this orbital skew that the ground-state electrons will move in a spiral asymptote way, rather than in a closed circular trajectory. This paper also calculates the interaction force between the Sun and Mercury. The calculated result is a third-order tiny quantity more than Newtonian mechanics, which is better than the calculation method of the stationary Schrödinger equation.