We propose a simple deterministic model of hydrogen energy spectra based on the hypothesis that atomic spectra have space-time dependent energy, which depends on a hidden effective vacuum index of refraction. The electromagnetic energy of the atomic states is supposed to be equal to the spacetime-dependent energy shift of the electron rest mass induced by symmetry breaking vacuum fluctuations. We propose an approach by which it is possible to recover Bohr stationary atomic energy spectrum averaging on particular discrete surfaces the hidden time dependent electron energy.
A Hidden Variable Model of Hydrogen Energy Spectra / Bei, Gianpaolo. - In: INTERNATIONAL JOURNAL OF APPLIED PHYSICS. - ISSN 2367-9034. - 8:1(2021), pp. -46. [10.14445/23500301/IJAP-V8I1P107]
A Hidden Variable Model of Hydrogen Energy Spectra
Bei, Gianpaolo
2021
Abstract
We propose a simple deterministic model of hydrogen energy spectra based on the hypothesis that atomic spectra have space-time dependent energy, which depends on a hidden effective vacuum index of refraction. The electromagnetic energy of the atomic states is supposed to be equal to the spacetime-dependent energy shift of the electron rest mass induced by symmetry breaking vacuum fluctuations. We propose an approach by which it is possible to recover Bohr stationary atomic energy spectrum averaging on particular discrete surfaces the hidden time dependent electron energy.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
