Influence of the Coriolis force in atom interferometry
classification
🪐 quant-ph
physics.atom-ph
keywords
atomcoriolisforceinfluenceinterferometerlargeareacharacterize
read the original abstract
In a light-pulse atom interferometer, we use a tip-tilt mirror to remove the influence of the Coriolis force from Earth's rotation and to characterize configuration space wave packets. For interferometers with large momentum transfer and large pulse separation time, we improve the contrast by up to 350% and suppress systematic effects. We also reach what is to our knowledge the largest spacetime area enclosed in any atom interferometer to date. We discuss implications for future high performance instruments.
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