An Analytical Approach to the Universal Wave Function and its Gravitational Effect

TL;DR

This paper proposes a novel quantum-based framework for understanding the universal wave function, deriving gravity and dark matter effects without new particles, through analyzing its richer structure and unitary evolution.

Contribution

It introduces a more general universal wave function model that explains gravity and dark matter phenomena from quantum principles without new physics.

Findings

Derivation of Newton's law of gravity from quantum wave function analysis

Explanation of galactic dark matter effects without new particles

Use of an auxiliary symmetric function to predict classical information evolution

Abstract

Based on quantum origin of the universe, in this article we find that the universal wave function can be far richer than the superposition of many classical worlds studied by Everett. By analyzing the more general universal wave function and its unitary evolutions, we find that on small scale we can obtain Newton's law of universal gravity, while on the scale of galaxies we naturally derive gravitational effects corresponding to dark matter, without modifying any physical principles or hypothesizing the existence of new elementary particles. We find that an auxiliary function having formal symmetry is very useful to predict the evolution of the classical information in the universal wave function.