Solution of Massless Spin One Wave Equation in Robertson-Walker Space-time
Yusuf Sucu, Nuri Unal
TL;DR
This paper extends the quantum spinor wave equation for photons to curved space-time, specifically Robertson-Walker space-time, and compares its solutions with those of Maxwell's equations to understand photon behavior in cosmological models.
Contribution
It introduces a generalized quantum spinor wave equation for photons in curved space-time and analyzes its solutions in Robertson-Walker space-time, providing a new perspective on photon dynamics in cosmology.
Findings
Solutions of the generalized wave equation are obtained in Robertson-Walker space-time.
Comparison shows similarities and differences with Maxwell equations solutions.
Provides insights into photon behavior in expanding universe models.
Abstract
We generalize the quantum spinor wave equation for photon into the curved space-time and discuss the solutions of this equation in Robertson-Walker space-time and compare them with the solution of the Maxwell equations in the same space-time.
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