Würzburg 2018 – scientific programme
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EP: Fachverband Extraterrestrische Physik
EP 14: Astrophysics III - Magnetic Fields, Stellar Clusters, Cosmic Rays and Cosmology
EP 14.5: Talk
Friday, March 23, 2018, 12:00–12:15, BSZ - Pabel HS
Explanation of Cosmic Inflation by Quantumgravitation — Hans-Otto Carmesin1,2,3 and •Matthias Carmesin4 — 1Universität Bremen, Fachb. 1, Pf. 330440, 28334 Bremen — 2Studienseminar Stade, Bahnhofstr. 5, 21682 Stade — 3Gymnasium Athenaeum, Harsefelder Str. 40, 21680 Stade — 4Universität Göttingen, Fak. f. Physik, 37077 Göttingen
From the Cosmic Microwave Background CMB the flatness problem and the horizon problem arose. An extraordinarily rapid increase of distances in the early universe, the Cosmic Inflation, was proposed by Guth in 1981 as a possible solution, whereby suggested mechanisms for such an increase have been criticized (Steinhardt: Scientific American 2011). We propose a theory that explains the Cosmic Inflation by Gravitation and Quantum Physics (Carmesin, H.-O.: Vom Big Bang bis heute mit Gravitation, Model for the Dynamics of Space. Berlin: Verlag Dr. Köster 2017.). We discover a sequence of dimensional phase transitions at critical densities. Our theory applies fundamental constants only, namely the gravitational constant G, the velocity of light c and the Planck constant h. Our results are in excellent quantitative agreement with observations, namely the critical density, the duration of cosmic inflation, the temperature fluctuations and the factor of increase correspond to the CMB. The flatness and horizon problems are solved. More precise observations would be particularly interesting concerning the factor of increase and possible scattering at dark matter.