A levitated-magnet vector force sensor is introduced to resolve directional signatures of spin-dependent exotic interactions and probe electron-electron couplings at millimeter ranges using an existing experimental platform.
Levitated sensor for magnetometry in ambient environment,
2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
A novel MPIDMT feedback trap is shown to stably levitate a ferromagnetic particle in microgravity, resolving motion in low-field and pure free-fall modes inside the Einstein-Elevator drop tower.
citing papers explorer
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A Levitated-Magnet Vector Force Sensor for Spin-Dependent Exotic Interactions
A levitated-magnet vector force sensor is introduced to resolve directional signatures of spin-dependent exotic interactions and probe electron-electron couplings at millimeter ranges using an existing experimental platform.
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A tunable feedback-controlled magnetic trap for a magnet in free fall
A novel MPIDMT feedback trap is shown to stably levitate a ferromagnetic particle in microgravity, resolving motion in low-field and pure free-fall modes inside the Einstein-Elevator drop tower.