Optical Interferometric Readout of a Magnetically Levitated Superconducting Microsphere
Abstract
We probe the motion of a 6 μ g magnetically levitated superconducting microsphere using optical interferometry at 3 K, achieving a resolution better than 1 nm/ Hz, and use the measured signal to feedback-cool its motion. The resolution exceeds the shot-noise limit of 11 pm/ Hz primarily due to technical noise arising from the roughness of the particle. Combined with established techniques of cavity optomechanics, the high degree of isolation from environmental noise afforded by this platform provides a path to quantum physics experiments with cryogenic isolated masses at the microgram scale.
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