The Spatially Closed Universe

TL;DR

This paper proposes a new global framework for modeling the universe that incorporates cosmic expansion effects into a 5D space-time, leading to novel insights on universe geometry, evolution, and consistency with observations.

Contribution

It introduces a 5D space-time-based metric that accounts for cosmic expansion effects, providing a unified description of closed, flat, and open universes with new implications.

Findings

Flat universe is empty and stationary, similar to Minkowski space-time.

Positive energy density universe is spatially closed and finite.

Reconstructed cosmic histories align with recent astronomical observations.

Abstract

The general world model for homogeneous and isotropic universe has been roposed. For this purpose, we introduce a global and fiducial system of reference (world reference frame) constructed on a 5-dimensional space-time that is embedding the universe, and define the line element as the separation between two neighboring events that are distinct in space and time, as viewed in the world reference frame. The effect of cosmic expansion on the measurement of physical distance has been correctly included in the new metric, which differs from the Friedmann-Robertson-Walker metric where the spatial separation is measured for events on the hypersurface at a constant time while the temporal separation is measured for events at different time epochs. The Einstein's field equations with the new metric imply that closed, flat, and open universes are filled with positive, zero, and negative energy, respectively. We have demonstrated that the flat universe is empty and stationary, equivalent to the Minkowski space-time, and that the universe with positive energy density is always spatially closed and finite. In the closed universe, the proper time of a comoving observer does not elapse uniformly as judged in the world reference frame, in which both cosmic expansion and time-varying light speeds cannot exceed the limiting speed of the special relativity. We have also reconstructed cosmic evolution histories of the closed world models that are consistent with recent astronomical observations, and derived useful formulas such as energy-momentum relation of particles, redshift, total energy in the universe, cosmic distance and time scales, and so forth. It has also been shown that the inflation with positive acceleration at the earliest epoch is improbable.