Litcius/Paper detail

Accurate measurement of the Sagnac effect for matter waves

Romain Gautier, Mohamed Guessoum, Leonid A. Sidorenkov, Quentin Bouton, Arnaud Landragin, Rémi Geiger

2022Science Advances46 citationsDOIOpen Access PDF

Abstract

A rotating interferometer with paths that enclose a physical area exhibits a phase shift proportional to this area and to the rotation rate of the frame. Understanding the origin of this so-called Sagnac effect has played a key role in the establishment of the theory of relativity and has pushed for the development of precision optical interferometers. The fundamental importance of the Sagnac effect motivated the realization of experiments to test its validity for waves beyond optical, but precision measurements remained a challenge. Here, we report the accurate test of the Sagnac effect for matter waves, by using a Cesium atom interferometer featuring a geometrical area of 11 cm 2 and two sensitive axes of measurements. We measure the phase shift induced by Earth’s rotation and find agreement with the theoretical prediction at an accuracy level of 25 parts per million. Beyond the importance for fundamental physics, our work opens practical applications in seismology and geodesy.

Topics & Concepts

Sagnac effectInterferometryPhysicsAstronomical interferometerRotation (mathematics)Atom interferometerOpticsMatter waveMeasure (data warehouse)Phase (matter)Realization (probability)Tests of special relativityGravitational waveComputational physicsComputer scienceQuantum mechanicsQuantumIntroduction to the mathematics of general relativityArtificial intelligenceDatabaseNumerical relativityStatisticsMathematicsGeophysics and Sensor TechnologyAdvanced Frequency and Time StandardsCold Atom Physics and Bose-Einstein Condensates