De Broglie’s Velocity of Transition between Quantum Levels and the Quantum of the Magnetic Spin Moment Obtained from the Uncertainty Principle for Energy and TimeReport as inadecuate




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The De Broglie’sapproach to the quantum theory, when combined with the conservation rule ofmomentum, allows one to calculate the velocity of the electron transition froma quantum state n to its neighbouringstate as a function of n. The papershows, for the case of the harmonic oscillator taken as an example, that the DeBroglie’s dependence of the transition velocity on n is equal to the n-dependenceof that velocity calculated with the aid of the uncertainty principle for theenergy and time. In the next step the minimal distance parameter provided bythe uncertainty principle is applied in calculating the magnetic moment of theelectron which effectuates its orbital motion in the magnetic field. Thisapplication gives readily the electron spin magnetic moment as well as thequantum of the magnetic flux known in superconductors as its result.

KEYWORDS

Velocity of the Electron Transitions between Quantum Levels, De Broglie Wave Packets, Magnetic Moment of the Electron Spin, Quantum of the Magnetic Flux, The Uncertainty Principle for Energy and Time

Cite this paper

Olszewski, S. 2014 De Broglie’s Velocity of Transition between Quantum Levels and the Quantum of the Magnetic Spin Moment Obtained from the Uncertainty Principle for Energy and Time. Journal of Modern Physics, 5, 2022-2029. doi: 10.4236-jmp.2014.518198.





Author: Stanisław Olszewski*

Source: http://www.scirp.org/



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