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Fission-Fusion Star with Neutron-core and Super-nuclei
Fission-Fusion Model of a Star with a rotating Neutron-sphere in the
core and Super-nuclei By Louis Nielsen, Denmark In the following I describe an alternative model of the sun and other similar stars. As an example, let us consider the structure of the sun and the processes taking place within it. Generally the sun has a stratified structure and function. The central core consists of a relatively small rotating neutron-sphere consisting of neutrons. The rotating neutron-sphere is the source of the primary magnetic field of the sun. Around the neutron-sphere is a zone of super-nuclei (macro-nuclei), with different, very high nucleonic numbers. The super-nuclei 'evaporate' from the surface of the neutron-sphere, assisted at the escape by the magnetic field. The super-nuclei can, under certain physical conditions, disintegrate by different types of reactions. Super-nuclei can disintegrate by alfa, beta decays and by successive fissions, spontaneous as well as induced. Also disintegrations by emissions of nuclei of carbon, oxygen, silicium, sulphur etc. can take place. The processes produce energy, and simultaneously the heaviest elements are created, down to iron, which is the most stable nucleus we know. Neutrons, alfa-particles and lighter elements, created by fission and decay of the super-nuclei, are 'blown' outwards in the sun by the pressure of radiation and particles. The neutrons are decaying to protons, electrons and anti-neutrinos, by which hydrogen atoms can be built. Alfa-particles give the possibility for production of helium atoms. In the zone of super-nuclei, the abundance of iron is increasing as the disintegration of super-nuclei takes place. Hydrogen, helium and some of the lighter and heavier elements will be 'placed' in zones around the super-nucleus zone. In the inner hydrogen/helium zone, where temperature and pressures are high, fusion processes can take place, producing energy and lighter elements. The outer layer of the sun consists, as spectral analysis shows, of hydrogen, helium and lighter elements, mixed with a small amount of heavier elements. By the disintegration processes, energy is released, in the form of kinetic and radiation energy. The pressure from particles and radiation causes an 'inflation' of the system of matter. An active and stable star is formed when stability is reached between the inwards gravity and the outwards pressure. The structure and the processes of a star can be resumed as follows: The star-co A fast rotating neutron-sphere, which is the source of super-nuclei and the source of the primary magnetic field around the star. The super-nuclei zone: A zone consisting of super-nuclei which are disintegrating with release of energy and simultaneous production of elements heavier than iron. The Iron zone: A zone with relatively high abundance of iron, and with balance between fission and fusion processes. The Fusion-zone: A zone consisting primarily of hydrogen and helium, with fusion processes, releasing energy and creating lighter elements. Fusion free outer-zone: A zone consisting of hydrogen, helium and lighter elements, mixed with some heavier elements. The outer zone we know quite well from studies of spectres. On the contrary, informations from the other zones are presently difficult to analyze. Detailed studies of neutrino-flux, magnetic fields and astro-seismology must confirm or reject the above model. Best regards, Louis Nielsen, Denmark |
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Fission-Fusion Star with Neutron-core and Super-nuclei
In article . com,
wrote: The outer zone we know quite well from studies of spectres. On the contrary, informations from the other zones are presently difficult to analyze. Detailed studies of neutrino-flux, magnetic fields and astro-seismology must confirm or reject the above model. Occam -- Thermodynamics claims another crown! http://hyperphysics.phy-astr.gsu.edu/hbase/heacon.html -- Posted via a free Usenet account from http://www.teranews.com |
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