JEWEL: A Cosmological Model Due to the Geometrical Displacement of Galactic Object Like Black, White and Worm Holes

Stellar objects such as black, white and worm holes can be the subject of speculative reasoning if represented in a simplified and geometric form in order to be able to move them; and the cosmological model is one of the most important contents in relation to speculations that can then open the way to other aspects that are not strictly speculative but practical, precisely in the Universe represented by us. In this work, thanks to the hypothesis of a very large number of black, white and worm holes present in our Universe, we imagine that they can be moved; it was therefore thought to align them on a plane and following a redistribution, and the boundaries of this plane were ideally joined, giving rise to a sphere that has the stellar objects examined radially distributed. Thanks to geometrical displacements of these stellar objects that do not make each one of them lose their functionality in the region in which they are located, at the end of the speculative process it is possible to highlight a spherical layer that allows a flow from the outside and inside this spherical shell allowing to relate to other external and internal spherical layers; this aspect that seems useful to describe the universe we live in, for example inside one of the spherical shells just described. The name "Jewel" was chosen because, imagining the speculative process present in this work at the end of steps, the cosmological model tends to be "luminous". This cosmological model includes, for each internal part of a generic layer, different and numerous moments of our universe thanks to an eternal flow inward. There are many aspects to explore, one of these is the connection between the outermost and the inside of the spherical layers.


Authors:



References:
[1] “Genetic geometry” Francesco Pia, pp. 80, Ed. Amazon® Kdp, January 2019.
[2] Buchi Neri Neonati e altri saggi, Stephen W. Hawking, 1993 RCS Rizzoli Libri S.p.A., Milano, Edizione CDE spa–Milano, 1993.
[3] “Black Holes at the Large Hadron Collider”, Savas Dimopoulos and Greg Landsberg; The American Physical Society, Volume 87, Issue 16, Received 28 June 2001; published 27 September 2001.
[4] “Astrophysical implication of hypothetical stable TEV-SCALE black holes”, Steven B. Giddings, Michelangelo L. Mangano arXiv:0806.3381v2, 23 Sep 2008, CERN-PH-TH/2008-025
[5] Dal Big Bang” ai buchi neri, breve storia del tempo, Stephen W. Hawking, 2009 RCS Rizzoli Libri S.p.A., Milano, Collana della grande Biblioteca della scienza”.
[6] Gravitation, Cosmology, and Cosmic-Ray Physics. Physics through the 1990s; Panel on Gravitation, Cosmology, and Cosmic-Ray Physics. Physics Survey Committee. Board on Physics and Astronomy. Commission on Physics Sciences, Mathematics, and Resources. National Research Council. National Academy Press. Washington D.C. 1986.
[7] “Bondi Accretion onto a Luminous Object”, Jun Fukue, Astronomical Society of Japan Astronomical Institute: Publ. Astron. Soc. Japan 53, 687–692, 2001 August 25
[8] http://www.youtube.com/watch?v=XXY-JzXu2oU
[9] “Buchi neri e LhC” Università di Milano, http://www.pubblico.fisica.unimi.it/ultime-dalla-ricerca/9-lhc/96-buchi-neri-e-lh
[10] Science 22 Oct 2004:Vol. 306, Issue 5696, pp. 666-669 DOI: 10.1126/science.1102896
[11] http://www.pubblico.fisica.unimi.it/ultime-dalla-ricerca/9-lhc/96-buchi-neri-e-lhc