Maxwell Equations with Accounting of Tensor Properties of Time

TL;DR

This paper extends Maxwell's equations to include tensor properties of time, revealing novel effects like vacuum polarization, anisotropic wave velocity, and polarization rotation, which could impact electromagnetic theory and applications.

Contribution

It introduces a tensor-based formulation of Maxwell's equations accounting for time's properties, predicting new electromagnetic phenomena.

Findings

Vacuum polarization effects observed

Anisotropic electromagnetic wave velocity in vacuum

Rotation of light polarization plane

Abstract

The Maxwell equations with accounting for tensors properties of time have been considered. The effects that follow from such consideration are described. These are the appearance of vacuum polarization, anisotropy of electromagnetic wave velocity in vacuum, anisotropy of the vacuum dielectric permittivity, rotation of light polarization plane, as well as the existence of longitudinal components of electromagnetic wave and the rotational (non-potential) component of electric field caused by electric charges.