Comparison of Bohr and Hulthén hydrogen atomic energy levels using the time-independent solution of Schrodinger's equation and confluent hypergeometric function

Putra, Guruh Sukarno and Akhsan, Hamdi (2022) Comparison of Bohr and Hulthén hydrogen atomic energy levels using the time-independent solution of Schrodinger's equation and confluent hypergeometric function. AIP Conference Proceedings. ISSN 15517616

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Abstract

The energy for each level of the hydrogen atom was triggered by Neils Bohr, where the amount of energy decreases at every level of orbit. The value of energy depends on the principal quanturn number which only applies to atoms with the s subshell of an atom with the same characteristics as the hydrogen atom. With the advancement of science, specifically in quantum physics, many potential equations aimed to solve the time-independent Schrödinger equation with the solution of the estimated value of energy. One of the applicable potential equations is the Hulthen potential which is explained about the potential at a small distance and only applies to atoms and micro-scale objects in physics and only has a solution at the azimuth quantum number value l = 0 or groups of atoms subshell s. Using the confluent hypergeometric function, the combination of the Hulthen potential and time-independent Schrödinger equation generates the estimated energy value of the hydrogen atom level, which can be used as a comparison with the estimated energy value of Bohr's hydrogen atom. This study found that the comparison between Hulthén and Bolt energy level lies in the same ratio 1:1.

Item Type: Article
Subjects: #3 Repository of Lecturer Academic Credit Systems (TPAK) > Articles Access for TPAK (Not Open Sources)
Divisions: 06-Faculty of Education and Educational Science > 84203-Physics Education (S1)
Depositing User: Hamdi Akhsan
Date Deposited: 03 Jul 2024 22:58
Last Modified: 03 Jul 2024 22:58
URI: http://repository.unsri.ac.id/id/eprint/149271

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