SKM 2021 – scientific programme
Parts | Days | Selection | Search | Updates | Downloads | Help
DY: Fachverband Dynamik und Statistische Physik
DY 5: Poster Session III: Statistical Physics, Complex Fluids and Soft Matter
DY 5.7: Poster
Tuesday, September 28, 2021, 17:30–19:30, P
Cosmological and Elementary Particles Explained by Phase Transitions Derived by Quantum Gravity — •Hans-Otto Carmesin — Gymnasium Athenaeum, Harsefelder Straße 40, 21680 Stade — Studienseminar Stade, Bahnhofstr. 5, 21682 Stade — Universität Bremen, Fachbereich 1, Postfach 330440, 28334 Bremen
In the early universe, the density was very high. As a consequence, there occurred gravitational instabilities and corresponding dimensional phase transitions, see Carmesin, Hans-Otto (March 2021): Quanta of Spacetime Explain Observations, Dark Energy, Graviton and Nonlocality. Berlin, Dr. Köster Verlag. These transitions are very robust, as they occur in three very different physical systems.
Based on the quantum states corresponding to these dimensional transitions, we derive many excitation modes that include the formation of neutrinos, of the Higgs boson, of the quanta of dark energy, and of many novel elementary particles, see Carmesin, Hans-Otto (August 2021): Cosmological and Elementary Particles Explained by Quantum Gravity. Berlin, Dr. Köster Verlag. These particles range form the Planck scale to the lightest particles, and so they solve the hierarchy problem of particle physics.
All results are derived by quantum gravity and are in precise accordance with observation. I emphasize that the only numerical input used in my theory is the present day time after Big Bang combined with the universal constants G, c, kB and h.