Reliability Computation of Kinetic Energy Based Shannon Entropy for Tritium Plasma Graphene Interactions

Authors : Alper Pahsa

Pages : 5-12

View : 92 | Download : 30

Publication Date : 2025-06-29

Article Type : Research Paper

Abstract :When selecting reactor building elements, it is important to consider the structural reliability of Tokamak fusion reactors. Fusion reactions generate substantial heat and energy, which can alter the structure of reactor walls, thereby diminishing the efficiency of energy production in reactors. The primary materials employed for walls in fusion reactors include tungsten, beryllium, and graphene, owing to their high melting points. This study looks at how tritium plasma ions, which have energies between 5 and 35 keV, affect graphene wall surfaces using molecular dynamics simulations, and also assesses the system\\\'s Kinetic Energy using Shannon entropy modeling. We use this information to compute the Weibull distribution\\\'s reliability prediction for graphene structures.
Keywords : Kinetik Enerjili Grafenin Malzeme Güvenilirliği, Grafenli Trityumlu PMI, Tokamak reaktör grafen malzeme güvenilirliği, Trityum bazlı füzyon reaktörü malzeme güvenilirliği, Füzyon reaktörü kinetik enerji bazlı güvenilirlik

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