de Broglie-Bohms Pilot Wave Theory to Determine Photon Trajectories in a System of Two Twisted Slits.
- 1Physikalisches Institut, Johann Wolfgang Goethe-Universität Frankfurt am Main
- 2Instituto de Física, Facultad de Ingeniería, Universidad de la República de Uruguay
- 3Department of Physics, University of Cincinnati
The unbeloved pilot wave theory of D.Bohm claims to be able to determine trajectories of quantum particles from the Schrödinger equation and the gradient - or fall-line - of an Eikonal ansatz as a solution. We try to apply this theory to the solution of a Huygens elementary wave theory we have explored previously [DGaO Proceedings] and find that it leads to the classical particle (photon) paths of a momentum conservation model and the geodesics on the surface of stationary phase of the system, but fails, if we apply it to the surface of the stationary phase after integration over "all paths" itself.
@inproceedings{dgao126-p1,
title = {de Broglie-Bohms Pilot Wave Theory to Determine Photon Trajectories in a System of Two Twisted Slits.},
author = {Wolfgang Dultz, Erna Frins, Bernd Hils, Heidrun Schmitzer},
booktitle = {DGaO-Proceedings, 126. Jahrestagung},
year = {2025},
publisher = {Deutsche Gesellschaft für angewandte Optik e.V.},
issn = {1614-8436},
note = {Poster P1}
}
126. Jahrestagung der DGaO · Stuttgart · 2025