par Teloi, Mayana
;Lakkis, Mouhamad Haidar
;Amorosi, Anthony
;Antoni-Micollier, Laura;Janvier, Camille;Ménoret, Vincent;Vermeulen, Pierre;Rosenbusch, Peter;Collette, Christophe 
Référence IEEE instrumentation & measurement magazine, 27, 6, page (40-45)
Publication Publié, 2024-04-01




Référence IEEE instrumentation & measurement magazine, 27, 6, page (40-45)
Publication Publié, 2024-04-01
Article révisé par les pairs
Résumé : | Over the past decades, gravimeters with different working principles have been developed, such as superconducting gravimeters, spring gravimeters or gravimeters based on optical interferometry [1]. Their ability to measure local changes in gravitational acceleration with very high sensitivity makes these instruments widely used in fundamental physics, geodesy and geophysics [2]-[4]. Recently, quantum gravimeters based on matter wave inter-ferometry have demonstrated some of the best resolutions and stabilities [5]. |