Quantum Physics


Calculation of the Atomic Masses

Authors: Dezso Sarkadi

According to the generally accepted physical theory, the synthesis of the elements may happen at a very high temperature in supernova explosions. In consequence of nuclear fusion, the supernova stars emit a very strong electromagnetic (EM) radiation, predominantly in form of X-rays and gamma rays. The intensive EM radiation drastically decreases the masses of the exploding stars, directly causing mass defects of the resulting atoms. The description of black body EM radiation is based on the famous Planck's radiation theory, which supposes the existence of independent quantum oscillators inside the black body. In this paper, it is supposed that in exploding supernova stars, the EM radiating oscillators can be identied with the nascent elements losing their specic yields of their own rest masses in consequence of the radiation process. The nal binding energy of the atoms (nuclei) is additionally determined by the strong neutrino radiation what also follows the Maxwell- Boltzmann distribution in the extremly high temperature. Extending Planck's radiation law for discrete radiation energies, a very simple formula is obtained for the theoretical determination of the atomic masses. In addition, the newly introduced theoretical model gives the fusion temperature what is necessary for the generation of the atoms of the Periodic Table. Keywords: nuclear binding energy, Planck radiation law, generation of atoms, the origin of the elements, new theoretical model of the nuclear synthesis, fusion temperature.

Comments: 3 Pages.

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Submission history

[v1] 2018-11-10 05:45:15

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