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Scientific Study from the year 2014 in the subject Physics - Astronomy, , language: English, abstract: This work is a presentation of a modified form of special relativity for field-bosons - in short SBM. Field bosons, for the purposes of this work, are synonymous with the condensates from spin 0-particles. The starting point is the hypothesis that a minimum size of uncertainty ¿x > 2·rS (rS=Schwarzschild radius) becomes effective with relativistic velocities, from which different limit velocities 0 …mehr

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Produktbeschreibung
Scientific Study from the year 2014 in the subject Physics - Astronomy, , language: English, abstract: This work is a presentation of a modified form of special relativity for field-bosons - in short SBM. Field bosons, for the purposes of this work, are synonymous with the condensates from spin 0-particles. The starting point is the hypothesis that a minimum size of uncertainty ¿x > 2·rS (rS=Schwarzschild radius) becomes effective with relativistic velocities, from which different limit velocities 0 < v(l,n) < c are derived, depending on the size of the field bosons. In accordance with the SBM model, field bosons under a defined phase limit become massive through spontaneous symmetry breaking. Field bosons can melt into larger condensates through the effects of gravity, whereby their effective mass is reduced, thus also reducing their large-scale gravitative coherence.

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Autorenporträt
Curriculum vitae 15.04.2020 Following the successful completion of his Master Degree in Chemistry at the Albert Ludwig University in Freiburg in 1977, Dr. Gantert received his doctorate at the FU Berlin in 1982 with the dissertation "Statistical Consideration of the Interactions of Phenoxazin Colorings with DNA". Subsequently, he became involved in various activities as a research associate in the area of research and development, among other places at Siemens AG Berlin, the Federal Institute for Materials Research, and the Berlin Institute for Analytics and Environmental Research. Since 2008, he has served as a research associate in the Department of Air Chemistry and Air Pollution Control at the Technical University of Cottbus (BTU). Until retirement in January 2015 his work at BTU focused on ultrasound-stimulated CO2 desorption. With entry into retirement, increased efforts were made to develop a non-local dark matter model with a non-standard theory of relativity.