Add to ORKGIn earlier published work, it was proposed that light speed was larger in the early Universe by 30 orders of magnitude compared to its presently observed value. This change in the speed of light is associated with a spontaneous breaking of local Lorentz invariance in the early Universe, associated with a first order phase transition at a critical time $t=t_c$. This solves the horizon problem, leads to a mechanism of monopole suppression in cosmology and can resolve the flatness problem. After the critical time $t_c$, local Lorentz (and diffeomorphism) invariance is restored and light travels at its presently measured speed. We investigate solutions of the field equations in the spontaneously broken phase and study further the flatness probl...
Cosmic inflation is the only known mechanism with the potential to explain the very special initial ...
The apparent Lorentz invariance of the laws of physics does not imply that space-time is indeed mink...
We prove here that Newton’s universal gravitation and momentum conservation laws together reproduce ...
We consider the cosmological implications of light travelling faster in the early Universe. We propo...
We contrast features of simple varying speed of light (VSL) cosmologies with inflationary universe m...
AbstractWe contrast features of simple varying speed of light (VSL) cosmologies with inflationary un...
We have found exact constant solutions for the cosmological density parameter using a generalization...
We study the possible singularities of isotropic cosmological models that have a varying speed of li...
Proceeding from a homogeneous and isotropic Friedmann universe a conceptional problem concerning lig...
AbstractWe consider f(R) modified gravity theories for describing varying speed of light in a spatia...
We study cosmologies in the Randall-Sundrum models, incorporating the possibility of time-varying sp...
AbstractWe consider scalar–tensor theory for describing varying speed of light in a spatially flat F...
We described a natural particle physics basis for late-time phase transitions in the universe. Such ...
The historical twist that the universal constancy of the speed of light, c , got abandoned for more ...
Light from a distant γ-ray burst backs up a key prediction of Albert Einstein's theory of relativity...
Cosmic inflation is the only known mechanism with the potential to explain the very special initial ...
The apparent Lorentz invariance of the laws of physics does not imply that space-time is indeed mink...
We prove here that Newton’s universal gravitation and momentum conservation laws together reproduce ...
We consider the cosmological implications of light travelling faster in the early Universe. We propo...
We contrast features of simple varying speed of light (VSL) cosmologies with inflationary universe m...
AbstractWe contrast features of simple varying speed of light (VSL) cosmologies with inflationary un...
We have found exact constant solutions for the cosmological density parameter using a generalization...
We study the possible singularities of isotropic cosmological models that have a varying speed of li...
Proceeding from a homogeneous and isotropic Friedmann universe a conceptional problem concerning lig...
AbstractWe consider f(R) modified gravity theories for describing varying speed of light in a spatia...
We study cosmologies in the Randall-Sundrum models, incorporating the possibility of time-varying sp...
AbstractWe consider scalar–tensor theory for describing varying speed of light in a spatially flat F...
We described a natural particle physics basis for late-time phase transitions in the universe. Such ...
The historical twist that the universal constancy of the speed of light, c , got abandoned for more ...
Light from a distant γ-ray burst backs up a key prediction of Albert Einstein's theory of relativity...
Cosmic inflation is the only known mechanism with the potential to explain the very special initial ...
The apparent Lorentz invariance of the laws of physics does not imply that space-time is indeed mink...
We prove here that Newton’s universal gravitation and momentum conservation laws together reproduce ...