Absolute quantum gravity (AQG) and quantum electrogravity (QEG)

Absolute quantum gravity (AQG) quantizes general relativity. AQG results in three new kinds of gravitons: a scalar g graviton, a vector w graviton, and a matrix S graviton. Quantum electrogravity (QEG) adds electromagnetism to AQG. I believe that QEG is the Grand Unified Theory. I do not believe there is a Grander Unified Theory that adds the weak and strong forces, because so far it appears that the interactions between the AQG gravitons and charged particles can account for both the weak and strong forces. This poster will expand on topics covered in my talk on AQG. It will also include updates on the rapidly progressing theoretical and simulation results in AQG and QEG. Depending on what is ready to be released by the time of the conference, the theoretical results may include: formulas similar to propagators and vertex factors for both AQG and QEG; possible new experimental tests; a periodic table of the particles based on bound graviton states; and a calculation of the fine structure constant. The simulation results may include: a hydrogen atom; rotating galaxies inside an extremal Kerr black hole; a dynamic simulation of the graviton showers in single-particle two-slit diffraction (which looks similar to the Plinko game); and a general purpose AQG/QEG simulator.