Article citationsMore>>
Schödel, R., Ott, T., Genzel, R.T., Hofmann, R., Lehnert, M., Eckart, A., Mouawad, N., Alexander, T., Reid, M.J., Lenzen, R., Hartung, M., Lacombe, F., Rouan, D., Gendron, E., Rousset, G., Lagrange, A.-M., Brandner, W., Ageorges, N., Lidman, C. and Menten, K.M. (2002) A Star in a 15.2-Year Orbit around the Supermassive Black Hole at the Centre of the Milky Way. Nature, 419, 694-696.
https://doi.org/10.1038/nature01121
has been cited by the following article:
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TITLE:
Dark Matter: An Unforeseen Gravitational Property of Relativistic Space-Time?
AUTHORS:
Andrei Pukkila
KEYWORDS:
Dark Matter, Black Holes, Gravitation, Supernova
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.5 No.2,
April
24,
2019
ABSTRACT: If the wave functions of matter expanded with time dilation for an outside observer in the same way as photons do in gravitational redshift; with some modifications the general relativity might alone explain dark matter, galaxy rotation curves, and part of the energy released in supernova explosions. Also, the event horizons of black holes couldn’t be formed when packing matter more and more densely together. Essentially, if the time dilation increases enough, the particles turn less localized to outside observers and the mass distribution of the same particles would expand into larger volume of space. Small particles deep inside a black hole might seem like dark matter instead by their gravitational influence if the time dilation alters their size enough for outside observers. At the same time, the surface particles of the black hole would be less dispersed, creating the Newtonian gravitational potential we see closer to black holes. The following research doesn’t attempt to reformulate the general relativity itself, but only proposes the idea while approximating the Milky way gravity profile to compare the hypothesis with measurements. Therefore, actually proving the hypothesis is still far off while the idea is sound at its core.
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