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Volume 36: Pages 51-54, 2023
Mass-energy equation and the theory of photon emission derived from Bohr’s theory
Noboru Kohiyamaa)
2-1-5-710 Shinmeidai, Hamura, Tokyo 205-0023, Japan
The Einstein’s relativistic mass-energy equation e¼mc2 is also obtained from Bohr’s theory. The Schrödinger equation (SE) is modified using this equation. In the hydrogenlike atom, the modified SE is solved for consistency with the eigenvalues of electron’s energy derived from the Dirac equation. Based on the consistency of their eigenvalues, the theory of photon emission is expressed. From this theory, an emission process different from bremsstrahlung is expressed. X-ray and gamma-ray bursts associated with thunderclouds and lightning are discussed by this process.
L’équation relativiste masse-énergie d’Einstein ε = mc2 est également obtenue à partir de la théorie de Bohr. L’équation de Schrödinger (SE) est modifiée en utilisant cette équation. Dans l’atome de type hydrogène, le SE modifié est résolu pour la consistance avec les valeurs propres de l’énergie de l’électron dérivées de l’équation de Dirac. Basée sur la consistance de leurs valeurs propres, la théorie de l’émission de photon est exprimée. À partir de cette théorie, un processus d’émission différent du bremsstrahlung est exprimé. Les sursauts de rayon x et de rayon gamma associées aux nuages d’tonnerre et à la foudre sont discutées par ce processus.
Key words: Mass-Energy Equation; Schrödinger Equation; Dirac Equation; de Broglie Wave Length; Photon; Bremsstrahlung; Thundercloud; Lightning.
Received: November 12, 2022; Accepted: December 23, 2022; Published Online: January 9, 2022
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