On the Schrödinger spectrum of a hydrogen atom with electrostatic Bopp–Landé–Thomas–Podolsky interaction between electron and proton
DOI10.1142/S0217751X1950146XzbMath1471.81112arXiv1808.07546MaRDI QIDQ5010193
Holly Carley, Volker Perlick, Michael Karl-Heinz Kiessling
Publication date: 24 August 2021
Published in: International Journal of Modern Physics A (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1808.07546
numerical evaluationsrigorous estimatescomparison with empirical datahigher derivative electrodynamicsHydrogen spectrum
Estimates of eigenvalues in context of PDEs (35P15) Electromagnetic interaction; quantum electrodynamics (81V10) Computation of special functions and constants, construction of tables (65D20) Selfadjoint operator theory in quantum theory, including spectral analysis (81Q10) Atomic physics (81V45) Noncommutative geometry in quantum theory (81R60)
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Cites Work
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- Approximate Born-Infeld effects on the relativistic hydrogen spectrum
- On the quasi-linear elliptic PDE \({-\nabla \cdot ( \nabla{u}/ \sqrt{1-| \nabla{u} |^2}) = 4 \pi \sum_k a_k \delta_{s_k}}\) in physics and geometry
- Numerical methods for solving radial Schrödinger equations
- Semiclassical quantisation rules for the Dirac and Pauli equations.
- On the self-force in Bopp–Podolsky electrodynamics
- LIMITS ON THE COUPLING CONSTANT OF HIGHER-DERIVATIVE ELECTROMAGNETISM
- Hard-sphere fluids with chemical self-potentials
- Modified Field Equations with a Finite Radius of the Electron
- Foundations of the new field theory
- Averages Over Portions of Configuration Space
- Finite Self-Energies in Radiation Theory. Part II
- The Electromagnetic Shift of Energy Levels
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