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Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen 被引量：2

Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen

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摘要 The energy spectrum of the hydrogen atom has been applied in calculating the time rate of energy transitions between the quantum states of the atom. The formal basis of the approach has been provided by the quantum properties of energy and time deduced from the Joule-Lenz law. The rates of the energy transitions obtained in this way were compared with the quantum-mechanical probabilities of transitions calculated earlier by Bethe and Condon and Shortley for the same pairs of the quantum states. The energy spectrum of the hydrogen atom has been applied in calculating the time rate of energy transitions between the quantum states of the atom. The formal basis of the approach has been provided by the quantum properties of energy and time deduced from the Joule-Lenz law. The rates of the energy transitions obtained in this way were compared with the quantum-mechanical probabilities of transitions calculated earlier by Bethe and Condon and Shortley for the same pairs of the quantum states.

作者 Stanisław Olszewski Stanisław Olszewski(Institute of Physical Chemistry, Polish Academy of Sciences, Warsaw, Poland)

机构地区 Institute of Physical Chemistry

出处《Journal of Modern Physics》 2016年第9期1004-1020,共17页 现代物理（英文）

关键词 Time and Intensity of Electron Transitions in the Atomic Hydrogen Semiclassical Emission Intensities Compared with the Quantum-Mechanical Transition Probabilities Time and Intensity of Electron Transitions in the Atomic Hydrogen Semiclassical Emission Intensities Compared with the Quantum-Mechanical Transition Probabilities

分类号 O41 [理学—理论物理]

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同被引文献5

1Stanislaw Olszewski.Relationship between the Fundamental Constants of Physics Obtained from the Uncertainty Principle for Energy and Time[J].Journal of Modern Physics,2015,6(5):622-626. 被引量：1
2Stanisław Olszewski.Quantum Aspects of the Joule-Lenz Law[J].Journal of Modern Physics,2016,7(1):162-174. 被引量：3
3Stanisƚaw Olszewski.Emission Intensity in the Hydrogen Atom Calculated from a Non-Probabilistic Approach to the Electron Transitions[J].Journal of Modern Physics,2016,7(8):827-851. 被引量：3
4Stanisław Olszewski.Erratum to “Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen” [Journal of Modern Physics 7 (2016) 1004-1020][J].Journal of Modern Physics,2016,7(16):2314-2315. 被引量：5
5Stanislaw Olszewski.Time Intervals of the Electron Transitions between the Energy States in the Hydrogen Atom Calculated in a Non-Probabilistic Way[J].Journal of Modern Physics,2019,10(13):1522-1531. 被引量：1

引证文献2

1Stanislaw Olszewski.Ehrenfest Approach to the Adiabatic Invariants and Calculation of the Intervals of Time Entering the Energy Emission Process in Simple Quantum Systems[J].Journal of Quantum Information Science,2020,10(1):1-9. 被引量：1
2Stanisław Olszewski.Two Problems of Time Entering Respectively the Relativistic Mechanics and Electron Transport in Quantum Theory[J].World Journal of Mechanics,2020,10(10):186-197.

二级引证文献1

1Jianzhong Zhao.A Quantum Mechanical Proof of Insecurity of the Theoretical QKD Protocols[J].Journal of Quantum Information Science,2022,12(3):53-63. 被引量：1

1Stanisƚaw Olszewski.Emission Intensity in the Hydrogen Atom Calculated from a Non-Probabilistic Approach to the Electron Transitions[J].Journal of Modern Physics,2016,7(8):827-851. 被引量：3
2Stanisław Olszewski.Erratum to “Semiclassical and Quantum-Mechanical Formalism Applied in Calculating the Emission Intensity of the Atomic Hydrogen” [Journal of Modern Physics 7 (2016) 1004-1020][J].Journal of Modern Physics,2016,7(16):2314-2315. 被引量：5
3Sheng-Li Chen.A big step forward to graphene-based atomic hydrogen storage[J].Science China Chemistry,2022,65(2):197-198.
4Stanisław Olszewski.Relativistic Reduction of the Electron-Nucleus Force in Bohr’s Hydrogen Atom and the Time of Electron Transition between the Neighbouring Quantum Energy Levels[J].Journal of Modern Physics,2020,11(6):944-951.
5Haiyan Wu,Huimin Li,Lihong Jiang,Ran Pang,Su Zhang,Da Li,Guanyu Liu,Chengyu Li,Jing Feng,Hongjie Zhang.Synthesis,structure and optical properties of novel thermally robust Dy^(3+)-doped Ca_(9)Sc(PO_(4))_(7) phosphors for NUV-excited white LEDs[J].Journal of Rare Earths,2021,39(3):277-283. 被引量：4
6Shun Wang,Shahab Ullah Khan,Xiao-Qing Tian,Hui-Bin Sun,Wei-Chao Jiang.Comparative study of photoionization of atomic hydrogen by solving the one-and three-dimensional time-dependent Schrödinger equations[J].Chinese Physics B,2021,30(8):327-336. 被引量：1
7Stanisław Olszewski.Two Problems of Time Entering Respectively the Relativistic Mechanics and Electron Transport in Quantum Theory[J].World Journal of Mechanics,2020,10(10):186-197.
8Lionel Fabian Fourie,Lynndle Square.Determination of a Safe Distance for Atomic Hydrogen Depositions in Hot-Wire Chemical Vapour Deposition by Means of CFD Heat Transfer Simulations[J].Fluid Dynamics & Materials Processing,2020,16(2):225-235. 被引量：5
9Stanislaw Olszewski.Ehrenfest Approach to the Adiabatic Invariants and Calculation of the Intervals of Time Entering the Energy Emission Process in Simple Quantum Systems[J].Journal of Quantum Information Science,2020,10(1):1-9. 被引量：1
10Stanisław Olszewski.Joule-Lenz Energy of Quantum Electron Transitions Compared with the Electromagnetic Emission of Energy[J].Journal of Modern Physics,2016,7(12):1440-1448.

Journal of Modern Physics

2016年第9期

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