Improved constraints on non-Newtonian forces at 10 microns

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Abstract

Several recent theories suggest that light moduli or particles in ``large'' extra dimensions could mediate macroscopic forces exceeding gravitational strength at length scales below a millimeter. Such new forces can be parameterized as a Yukawa-type correction to the Newtonian potential of strength $\ensuremath{\alpha}$ relative to gravity and range $\ensuremath{\lambda}$. To extend the search for such new physics we have improved our apparatus utilizing cryogenic micro-cantilevers capable of measuring attonewton forces, which now includes a switchable magnetic force for calibration. Our most recent experimental constraints on Yukawa-type deviations from Newtonian gravity are more than 3 times as stringent as our previously published results and represent the best bound in the range of $5--15\text{ }\text{ }\ensuremath{\mu}\mathrm{m}$, with a 95% confidence exclusion of forces with $|\ensuremath{\alpha}|>14,000$ at $\ensuremath{\lambda}=10\text{ }\text{ }\ensuremath{\mu}\mathrm{m}$.

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