Microscopic Study of Vorticities in Relativistic Chiral Fermions
Kiyoumars A. Sohrabi
TL;DR
This paper demonstrates that vorticity can be directly controlled in relativistic chiral fermions using curved-space techniques, challenging the common belief that it is only indirectly influenced by external conditions.
Contribution
The study introduces a novel approach using curved-space methods to directly manipulate vorticity effects in relativistic chiral fermions.
Findings
Vorticity influences relativistic chiral fermions directly.
Curved-space techniques enable control over vorticity effects.
Challenging the belief that vorticity is only indirectly controlled.
Abstract
It is usually believed that unlike the external magnetic field which one can set directly, vorticity is a property of the flow of particles, which is indirectly controlled by external fields and initial conditions. Using the curved-space technics it is shown that the influence of the vorticity on the relativistic chiral fermions can indeed be controlled directly.
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