A Link Between Relativistic Rest Energy and Fractionary Momentum
Operators of Order 1/2
- URL: http://arxiv.org/abs/1912.12770v4
- Date: Tue, 14 Jul 2020 10:18:55 GMT
- Title: A Link Between Relativistic Rest Energy and Fractionary Momentum
Operators of Order 1/2
- Authors: Luis Fernando Mora Mora
- Abstract summary: The damping coefficient of the equation was matched with the exponent appearing in the Yucawa potential or "screened" Coulomb potential.
The fractionary wave equation was expressed in spherical coordinates and remains to be solved through analytical or numerical methods.
- Score: 2.5582075465437972
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: The solution of a causal fractionary wave equation in an infinite potential
well was obtained. First, the so-called "free particle" case was solved, giving
as normalizable solutions a superposition of damped oscillations similar to a
wave packet. From this results, the infinite potential well case was then
solved. The damping coefficient of the equation obtained was matched with the
exponent appearing in the Yucawa potential or "screened" Coulomb potential.
When this matching was forced, the particle aquires an offset energy of E =
mc^2/2 which then can be increased by each energy level. The expontential
damping of the wave solutions in the box was found to be closely related with
the radius of the proton when the particle has a mass equal to the mass of the
proton. Lastly the fractionary wave equation was expressed in spherical
coordinates and remains to be solved through analytical or numerical methods.
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