Branes in supernova shells
May, 2005Citations per year
0 Citations
Abstract: (arXiv)
This paper is firstly intended to review shortly the most recent developments and ideas resulting from the necessity of having a scale at which gravitation to unify the other fundamental forces. With the declared intention of predicting an {\it in situ} distinct possibility for Kaluza-Klein gravitons formation in the supernova shell we are using state of the art simulations \citep{langer,ud1,ud2,ud3} for massive stellar winds to infer that the supernova shock which will hit such winds will meet a non-isotropic and non-homogeneous matter distribution with a very distinct geometry. By linking this to the mechanism of particle shock acceleration at cosmic ray energies (Fermi acceleration) and the related spallation in the wind shell, the result is the creation of proper conditions for Kaluza-Klein gravitons formation in the supernova shell from neutrino secondary particles (cosmic ray spallation products) interacting with eV cosmic rays.Note:
- Submitted to Astron.Astrophys.
- COSMOLOGY
- STELLAR WINDS
- STELLAR OUTFLOWS
- COSMIC RAYS
- membrane model
- supernova
- graviton: Kaluza-Klein model
- space-time: higher-dimensional
- cosmic radiation: acceleration
- shock waves
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