Electromagnetic waves with nonlinear dispersion law

TL;DR

This paper proposes a new super wave equation derived from Maxwell's equations, describing electromagnetic waves with nonlinear dispersion that can travel faster than light, challenging traditional relativity principles.

Contribution

It introduces a novel super wave equation incorporating a diffusion-like current, explaining faster-than-light electromagnetic waves in gamma-ray regions.

Findings

Derived a super wave equation from Maxwell's equations.

Described electromagnetic waves with nonlinear dispersion law.

Discussed experimental implications and estimations.

Abstract

Last year physicists in Europe have measured the velocity of the neutrinos particles. They found the neutrinos moving faster than the speed of light in vacuum. This result means that Einstein's relativity principle and its consequences in modern physics need a global additional renovation. In present paper the part of this problem is considered in terms of basic Maxwell's method only. By means of introduction a diffusion like displacement current the new super wave equation was derived, which permits of its solution be described the electromagnetic waves moving some faster than the conventional speed of light in vacuum especially in a gamma ray of a very short wave length region. The unique properties of these waves are that they undergo nonlinear dispersion law, uppermost limit of which is restricted. Discussion of further experimental problems and a number of estimations are given for the macro physic super wave equations also.