New Research Paper on Quantum Mechanics and Relativity - Post Quantum Gravity

A new research paper has manage to link quantum mechanics and relativity together. It is called Post quantum gravity it takes the uncertainty of Quantum Mechanics and gives the same uncertain or random aspect to gravity. It says that this randomness is a starting point and is a fundamental ingredient. By doing this they can formulate one mathematic model for both types of randomness. I will places links below to these research papers. Post-quantum gravity is very interesting, but it only gives us a mathematical interpretation of what is actually happening. The theory explained in these videos gives us an objective geometrical understanding that the mathematics is based upon. We do indeed have a starting point, it is formed by light photons ∆E=hf interacting with the electron probability cloud that surrounds the nucleus of each atom. Someone within a gravitational field in freefall will experience the randomness of quantum mechanics as a probabilistic uncertain ∆×∆pᵪ≥h/4π future. That is coming into existence with each photon electron coupling or dipole moment. In this theory the mathematics of quantum mechanics represents the physics of time, with classical physics representing processes over a ‘period of time’ as in Newton’s differential equations. Light photon ∆E=hf energy continuously transforming potential energy into the kinetic Eₖ=½mv² energy of matter, in the form of electrons. Kinetic energy is the energy of what is actually ‘happening’ as a probabilistic uncertain future unfolds. This forms ‘the starting point’ of a probabilistic uncertain future The wave particle duality of light and matter in the form of electrons is forming a blank canvas that we, as atoms, can interact with relative to the energy and momentum of our actions. This process is relative to the Planck constant h/2π of action. Reference Papers here: https://journals.aps.org/prx/abstract... https://www.nature.com/articles/s4146... New theory seeks to unite Einstein’s gravity with quantum mechanics 4 December 2023 https://www.ucl.ac.uk/news/2023/dec/n...