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DOI of the published article https://doi.org/10.2514/1.I010714
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DOI of the published article https://doi.org/10.2514/1.I010714
Flux-Pinned Dynamics Model Parameterization and Sensitivity Study
DOI:
https://doi.org/10.31224/osf.io/kfb8tKeywords:
close-proximity spacecraft, dynamics, electromagnetic effects, superconducting magnetsAbstract
Flux-pinned interfaces maintain a passively stable equilibrium between two spacecraft in close-proximity. Although flux-pinning physics has been studied from a materials-science perspective and at the systems level, the sensitivities and implications of system-level designs on the dynamics need to be better understood, especially in interfaces with multiple magnets and superconductors. These interfaces have highly nonlinear, coupled dynamics that are influenced by physical parameters including strength of magnetic field sources, field-cooled position, and superconductor geometry. Kordyukâs frozen image model successfully approximates the characteristics of flux pinning dynamics but could provide more precise state prediction with the addition of these physical parameter refinements. This paper addresses that gap by offering parametric terms to improve the dynamics model, which may better simulate the behavior of a multiple-magnet-multiple-superconductor interface. The sensitivity of the general flux-pinned dynamics model is studied by varying the physical parameters and simulating the systems level dynamics. This work represents a critical step in the development of a model suited to spacecraft performance verification.Downloads
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