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Main Authors: de Sousa, Jose Ricardo, da Silva, Marcio Gomes, Ciftja, Orion
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.08040
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author de Sousa, Jose Ricardo
da Silva, Marcio Gomes
Ciftja, Orion
author_facet de Sousa, Jose Ricardo
da Silva, Marcio Gomes
Ciftja, Orion
contents In this work, we present an analytical study of the electrostatic potential generated by a charged disk with a surface charge distribution that possesses radial axial symmetry. We express the potential in cylindrical coordinates and apply a Bessel function representation for the Coulomb kernel to simplify its calculation. We consider a broad family of surface charge densities and derive an exact expression for the potential based on a classical integral identity involving Bessel functions. This general formulation includes several important special cases such as the uniformly charged disk and edge-concentrated charge density distributions. We explore how variations in various parameters affect the resulting potential, thereby illustrating the influence of radial charge modulation. It is found that the potential undergoes a qualitative change of behavior when the chosen set of parameters is varied. The results are analytically elegant and computationally efficient as all functions involved are implemented in standard scientific computing libraries.
format Preprint
id arxiv_https___arxiv_org_abs_2506_08040
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modeling the Electrostatic Potential of Disks with Arbitrary Radial Charge Profiles
de Sousa, Jose Ricardo
da Silva, Marcio Gomes
Ciftja, Orion
Classical Physics
In this work, we present an analytical study of the electrostatic potential generated by a charged disk with a surface charge distribution that possesses radial axial symmetry. We express the potential in cylindrical coordinates and apply a Bessel function representation for the Coulomb kernel to simplify its calculation. We consider a broad family of surface charge densities and derive an exact expression for the potential based on a classical integral identity involving Bessel functions. This general formulation includes several important special cases such as the uniformly charged disk and edge-concentrated charge density distributions. We explore how variations in various parameters affect the resulting potential, thereby illustrating the influence of radial charge modulation. It is found that the potential undergoes a qualitative change of behavior when the chosen set of parameters is varied. The results are analytically elegant and computationally efficient as all functions involved are implemented in standard scientific computing libraries.
title Modeling the Electrostatic Potential of Disks with Arbitrary Radial Charge Profiles
topic Classical Physics
url https://arxiv.org/abs/2506.08040