The Compton Effect in the Planck Vacuum Theory

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  •   William C. Daywitt

Abstract

This note reviews the Compton-effect photon scattering and relates it to the spinor nature of the electron and positron cores. The modified wavelength equation is seen to be proportional to the electron Compton radius from the Planck vacuum (PV) theory.


Keywords: Compton Effect, Compton (coupling) Radius, Planck Vacuum State.

References

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Daywitt WC. The Planck Vacuum. in Physics, 2009;1:20. (see also www.planckvacuumDOTcom)

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Daywitt WC. Comparing the Planck-Vacuum and the Urantia-Book Depictions of the Seven-Dimensional Spacetime. European Journal of Engineering Research and Science, December 2020;5(12).

Carroll BW and Ostlie DA. An Introduction to Modern Astrophysics. (Addison-Wesley, San Francisco, Boston, New York, Cape Town, Hong Kong, London, Madrid, Mexico City, Montreal, Munich, Paris, Singapore, Sidney, Tokyo, Toronto, 2007).

Daywitt WC. The Source of the Gravitational Constant for the Dirac Cores in the Planck Vacuum Theory. European Journal of Applied Physics, 2022;4(3):1-2.

Daywitt WC. Reducing the Covariant Dirac Equation for the Electron or Proton Cores to the Gradients of a Single Wavefunction.European Journal of Applied Physics, 2022;4(2):25-27.

Daywitt WC. The Heisenberg Uncertainty Principle in the Planck Vacuum Theory. European Journal of Applied Physics, 2022;4(5):1-3.

Leighton RB. Principles of Modern Physics. McGraw-Hill Book Co., New York, Toronto, London, 1959.

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How to Cite
Daywitt, W. C. (2022). The Compton Effect in the Planck Vacuum Theory. European Journal of Applied Physics, 4(6), 20–21. https://doi.org/10.24018/ejphysics.2022.4.6.215