In this second paper into the field of Measurement Quantization, a follow up to the initial publication, Geiger unites the effects described by Special & General Relativity under a single quantum model of measure. The research completes the efforts of Einstein and others to unify the effects of motion and gravitation under a single approach providing a comprehensive understanding of the distortion of measure using not only the target/observer frames of reference, but also incorporates the frame of the universe. Only a wholistic approach that contrasts the discrete Measurement Frame of the observer against the non-discrete Target Frame of the universe affords a complete description of this relationship.
The research returns to some of the accomplishments of the first paper providing a more in-depth understanding of these effects as applied to the birth of the universe as a quantum fluctuation, the trigger event that ends 363,312 year of quantum epoch and initiates expansion. The model matches our best measurement data of the cosmic microwave background to four digits, building on the initial success of the Measurement Quantization approach.
The paper "Quantum Model of Gravity Unifies Relativistic Effects, Describes Inflation/Expansion Transition, Matches CMB Data", was published in the Journal of High Energy Physics, Gravitation, and Cosmology.