Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen - Journal of Modern Physics

JMP > Vol.7 No.9, May 2016

Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen ()

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DOI: 10.4236/jmp.2016.79091 1,846 Downloads 2,873 Views Citations

Author(s)

Stanisław Olszewski

Affiliation(s)

Institute of Physical Chemistry, Polish Academy of Sciences, Warsaw, Poland.

ABSTRACT

The energy spectrum of the hydrogen atom has been applied in calculating the time rate of energy transitions between the quantum states of the atom. The formal basis of the approach has been provided by the quantum properties of energy and time deduced from the Joule-Lenz law. The rates of the energy transitions obtained in this way were compared with the quantum-mechanical probabilities of transitions calculated earlier by Bethe and Condon and Shortley for the same pairs of the quantum states.

KEYWORDS

Time and Intensity of Electron Transitions in the Atomic Hydrogen, Semiclassical Emission Intensities Compared with the Quantum-Mechanical Transition Probabilities

Share and Cite:

Olszewski, S. (2016) Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen. Journal of Modern Physics, 7, 1004-1020. doi: 10.4236/jmp.2016.79091.

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