Gravity Theory

This paper presents a novel Gravity Theory (GT) that reinterprets the gravitational field as being derived from the Higgs field within a flat spacetime framework.
Unlike General Relativity (GR), which attributes gravity to spacetime curvature, GT integrates quantum corrections, nonlinear dynamics, and a variable speed of light to describe gravitational phenomena [1]. The theory successfully predicts key cosmic phenomena such as the expansion of the universe [6], gravitational time dilation, and light deflection, while addressing discrepancies in observational data, such as the nature of gravitational waves [4]. By calibrating the coupling constant λ using empirical data from cosmological expansion instead of perihelion precession or light deflection, KGT shows potential as a bridge between quantum mechanics and cosmology, offering a new perspective on gravity that
does not rely on dark energy or spacetime curvature.