We propose an alternative to the dark matter hypothesis that would explain why the effects of a curvature of spacetime are measured in regions where no electromagnetic radiation is observed. The problem could be solved, assuming a plasticity of spacetime that, in some conditions, can allow a region to remain locally curved even when the mass density has gone away from that region. This way we can observe curvature also in the absence of a local mass density. We apply this idea in a very simple way to the rotation curve of Milky Way showing an agreement between the prediction of the theory and the experimental data. We propose also a different scenario that gives as a result a flat rotation curve. At this stage, our approach is just an idea, not an already complete theory, so many problems remain still unsolved.
PLASTICITY OF SPACETIME AS AN ALTERNATIVE TO DARK MATTER
ANTONIO FEOLI
2018-01-01
Abstract
We propose an alternative to the dark matter hypothesis that would explain why the effects of a curvature of spacetime are measured in regions where no electromagnetic radiation is observed. The problem could be solved, assuming a plasticity of spacetime that, in some conditions, can allow a region to remain locally curved even when the mass density has gone away from that region. This way we can observe curvature also in the absence of a local mass density. We apply this idea in a very simple way to the rotation curve of Milky Way showing an agreement between the prediction of the theory and the experimental data. We propose also a different scenario that gives as a result a flat rotation curve. At this stage, our approach is just an idea, not an already complete theory, so many problems remain still unsolved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
