I am working on a quantum gravity.
I combine:
- A Problem: General Relativity does not conserve energy,
- and an experimental finding: Quantum Mechanics is non local.
I find, by adding energy conservation to General Relativity, that superluminal monopolar wave propogation is possible. I identify this superluminal wave with the quantum de Broglie – Bohm like waves.
Emily Noether proved that General Relativity cannot conserve energy if Lorentz covariance is to be kept. Dropping covariance only for energy conservation, I find that regular matter is still covariant. Black holes kind of exist, and singularities appear to be gone or largely defeated. One possible outcome is that dark matter is identified with the superluminal quantum field, so perhaps Dark Matter is Quantum Mechanics. In quantum mechanics, the non-local effect is instantaneous. My paper suggests that the speed is actually sqrt(r/m) which works out to over 10,000 times the speed of light.
I have a paper online about this at gravityphysics.com
https://www.cambridge.org/engage/coe/article-details/68090fb3927d1c2e666733cb
Andersen, T. C. on ORCID
General Relativity 