Numerical and Analytical Study of the Magnetic Field Distribution in a Three-Solenoid System

Numerical and Analytical Study of the Magnetic Field Distribution in a Three-Solenoid System

This study investigates the magnetic fields produced by a three-solenoid system configuration using both traditional numerical solvers and fractional integral methods. We focus on the role of mesh resolution in influencing simulation accuracy, examining coils with dimensions 80 mm × 160 mm and a rad...

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Bibliographic Details
Main Authors: Mostafa Behtouei, Alberto Bacci, Martina Carillo, Moreno Comelli, Luigi Faillace, Mauro Migliorati, Livio Verra, Bruno Spataro
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Fractal and Fractional
Subjects:
magnetic field
solenoid
particle acceleration
linac
accelerator applications
accelerator subsystems and technologies
Online Access:https://www.mdpi.com/2504-3110/9/6/383
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Summary:This study investigates the magnetic fields produced by a three-solenoid system configuration using both traditional numerical solvers and fractional integral methods. We focus on the role of mesh resolution in influencing simulation accuracy, examining coils with dimensions 80 mm × 160 mm and a radius of 15.5 mm, each carrying a current of 200 A. Magnetic field behavior is analyzed along a line parallel to the central axis at a distance equal to half the solenoid’s radius. The fractional integral formulation employed provides a refined understanding of field variations, especially in off-axis regions. Comparisons with the Poisson solver highlight consistency across methods and suggest pathways for further optimization. The results support the potential of fractional approaches in advancing electromagnetic field modeling, particularly in accelerator and beamline applications.
ISSN:2504-3110

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