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September 17, 2025

Electromagnetic Halbach Cylinder to Investigate Magnetic Field Effects on Cellular Metabolism

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Results demonstrate a homogeneous magnetic field with only 2% variation over a 12 mm x 12 mm area, enhancing experimental control.
The design allows for the study of magnetic field effects on cellular metabolism, utilizing varied directions and strengths.
Custom software and amplifier circuitry were developed to optimize the electromagnetic Halbach cylinder's performance.
This enables further exploration of how magnetic fields influence cellular processes, potentially leading to new biological insights.

Resumen

Motivation: Magnetic field effects on cellular metabolism have been documented but with little to no exploration of that space with respect to field direction, strength, and oscillation frequency. Goal(s): Our goal is to design a custom electromagnet that integrates with a fluorescence microscope to study magnetic field effects on cellular metabolism. Approach: We developed and characterized a rotating electromagnetic Halbach cylinder along with custom amplifier circuitry and software. Results: Generation of a homogeneous field (2% variation) in an arbitrary direction over a 12 mm x 12 mm region in the x-y plane (perpendicular to the fluorescent light path) is demonstrated. Impact: The electromagnetic Halbach array produces a controllable and homogeneous field orthogonal to a fluorescent light source, allowing for further investigation of magnetic field effects on cellular metabolism.

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Electromagnetic Halbach Cylinder to Investigate Magnetic Field Effects on Cellular Metabolism

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