1. Noboru Kohiyama, Theory of electromagnetic wave (≥ 1 mm) emission and absorption by the hydrogen atom derived from the relativistically modified Schrödinger equation

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Volume 33: Pages 114-117, 2020

Theory of electromagnetic wave (≥ 1 mm) emission and absorption by the hydrogen atom derived from the relativistically modified Schrödinger equation

Noboru Kohiyama^a)

2-1-5-710 Shinmeidai, Hamura City, Tokyo 205-0023, Japan

The relativistically modified Schrödinger equation is solved for the hydrogen atom for consistency with the eigenvalues of electron’s energy derived from the Dirac equation. Based on the consistency of their eigenvalues, the theory of electromagnetic wave (≥ 1 mm) emission and absorption by the hydrogen atom is expressed. Another particle in addition to an electron is predicted from this theory.

L'équation de Schrödinger modifiée de manière relativiste est résolue pour l’atome d’hydrogène pour la consistance avec les valeurs propres de l’énergie de l'électron dérivée de l’équation de Dirac. En se basant sur la consistance de leurs valeurs propres, la théorie de l'émission et de l'absorption d’onde électromagnétique (≥ 1 mm) par l'atome d'hydrogène est exprimée. Une autre particule en plus d'un électron est prédite à partir de cette théorie.

Key words: Schrödinger Equation; Dirac Equation; Hydrogen Atom; Eigenvalue of Energy; 21 cm Radio Wave; Cosmic Background Radiation.

Received September 1, 2019; Accepted: March 12, 20209; Published Online: March 27, 2020

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