Quantum Physics

   

Application of Wheeler-Feynman Absorber Theory to Laser Power Output

Authors: Michael Harney, Michael Weber, Milo Wolff

The method described is designed to increase laser output power using a concept from Wheeler-Feynman absorber theory [1,2] and the work of Tetrode [3], where photons are modeled as sources of energy that must also have a sink (an electron) to be absorbed. According to Wheeler-Feynman and Tetrode, if an electron is not present to absorb the photon, then the photon can never be emitted. In Wheeler-Feynman absorber theory, advanced and retarded potentials resemble time-reversal equations because there must be communication faster than light between the source-photon and the sink-electron, reasoned Feynman, so that the source photon's atom would know whether to emit a photon. This enigma was resolved by Milo Wolff in his work "Exploring the Physics of the Unknown Universe" [4], where he describes the use of spherical scalar in-waves and out-waves that travel at c and whose local speed is based on local-mass density. The in-out waves form electrons and also allows communication between them.

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Submission history

[v1] 10 Apr 2010

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