Real time display with the ferrolens of homogeneous magnetic fields
TLDR
In this article, the authors used the ferrolens for the observation and qualitative analysis of non-homogeneous magnetic fields and showed that they can display the projected magnetic field on air from a distance without needing to be in physical contact with the field source.About:
This article is published in Journal of Magnetism and Magnetic Materials.The article was published on 2022-01-01 and is currently open access. It has received 2 citations till now. The article focuses on the topics: Magnetic field & Magnet.read more
Citations
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Fine Structure Constant Model Demonstrates the Electron Elementary Charge of Having an Intrinsic Manifold
TL;DR: In this article , the fine structure constant (FSC) and anomalous magnetic moment αμ of the electron is related to the sphericity of its charge distribution which is not perfectly spherical and thus has a shape, and therefore its selfconfined charge possesses measurable physical dimensions.
References
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Magnetic-field-induced optical anisotropy in ferrofluids: A time-dependent light-scattering investigation
TL;DR: It is proposed that the time evolution of the scattering patterns, which is very fast at short times and significantly slower at long times, can be explained using a model based on a two-stage chain formation and coarsening processes.
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Magnetic center location in multipole fields
J. K. Cobb,J.J. Muray +1 more
TL;DR: In this paper, a procedure for optically locating the magnetic center of multipole magnetic lenses is discussed, which involves the scattering of plane polarized light through a colloidial suspension of ferrosoferric oxide particles.
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Light Polarization Using Ferrofluids and Magnetic Fields
TL;DR: In this paper, the authors presented an experimental setup based on polarized light, enabling the visualization of the magnetic field of magnetic assemblies using a Hele-Shaw cell filled with ferrofluids.
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Real time observation of a stationary magneton
TL;DR: In this article, the quantum magnetic field of the magnet-magneton (QFM) was shown to be a dipole vortex shaped magnetic flux geometrical pattern responsible for creating the classical macroscopic N-S field of magnetism as a tension field between the two polar quantum flux vortices North and South poles.