TITLE:
Emission Intensity in the Hydrogen Atom Calculated from a Non-Probabilistic Approach to the Electron Transitions
AUTHORS:
Stanisƚaw Olszewski
KEYWORDS:
Time Intervals for the Electron Transitions in the Hydrogen Atom, Non-Probabilistic Theory of Energy Emission in the Atom, Comparison of the Emission Intensities with the Quantum-Mechanical Transition Probabilities
JOURNAL NAME:
Journal of Modern Physics,
Vol.7 No.8,
April
29,
2016
ABSTRACT: Quantum aspects of the Joule-Lenz law for the transmission of energy
allowed us to calculate the time rate of energy transitions between the quantum
states of the hydrogen atom in a fully non-probabilistic way. The calculation
has been extended to all transitions between p and s states having
main quantum numbers not exceeding 6. An evident similarity between the
intensity pattern obtained from the Joule-Lenz law and the corresponding
quantum-mechanical transition pro-babilities has been shown.