Self-consistent solutions of canonical proper self-gravitating quantum systems

TL;DR

This paper presents universal self-gravitating quantum solutions that incorporate curvature effects, align with Newtonian gravity, and support the quantum coherence of gravitating systems consistent with experimental and equivalence principle considerations.

Contribution

It introduces self-consistent, universal solutions for quantum systems under gravity that include curvature effects and match classical and experimental observations.

Findings

Solutions incorporate curvature effects and are universal.

Results align with Newtonian gravity and experimental data.

Supports quantum coherence in gravitating systems.

Abstract

Generic self-gravitating quantum solutions that are not critically dependent on the specifics of microscopic interactions are presented. The solutions incorporate curvature effects, are consistent with the universality of gravity, and have appropriate correspondence with Newtonian gravitation. The results are consistent with known experimental results that indicate the maintenance of the quantum coherence of gravitating systems, as expected through the equivalence principle.