TITLE:
Cold Fusion Based on Matter-Antimatter Plasma Formed in Molecular Crystals
AUTHORS:
Mohamed Assaad Abdel-Raouf, Abdelfattah T. Elgendy, Amr Abd Al-Rahman Youssef
KEYWORDS:
Cold Fusion, Annihilation Energy, Plasma Energy, Ion-Acoustic Plasma, Cold and Hot Plasma, Matter-Antimatter Plasma in Molecular Crystals, Fuel for Space Shuttles in Palladium Crystals
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.8 No.1,
November
26,
2021
ABSTRACT: The main purpose of this work is to shed light on the possibility of producing huge amount of energy based on the construction matter-antimatter plasma in a molecular crystal. It is assumed that two beams of isothermal hydrogen and antihydrogen are injected into a palladium crystal leading to a plasma state composed of particles and antiparticles. The collapse of this state releases a huge amount of energy which can be used as fuel for space shuttles. Thus, the novel system of isothermal pressure interaction enhances the energy power carried out by the quantum ion acoustic soliton (QIAS). In addition to the energy power released from the particle-antiparticle annihilation. The probability of merging the energy from these two cases is available at certain condition. The released energy may be a significant step in solving the energy scape of Tokomak to produce fusion energy. The study starting from the one-dimensional quantum hydrodynamic model (in which the term of electron-positron and proton-antiproton for hydrogen-antihydrogen is included), a Korteweg de Vries equation (kdv) is derived, the QIAS energy experiences and the annihilation energy power are calculated. It is found that the total energy of QIAS and the energy resulting from hydrogen-antihydrogen annihilation are important step towards the establishment of a cold fusion power station.