: We describe a proof-of-principle experiment aiming to investigate the inverse-square law of gravitation at the centimeter scale. The sensor is a two-stage torsion pendulum, while actuation is accomplished by a variable liquid mass. The time-varying gravitational force is related to the level of the circulating fluid in one or two containers at a short distance from the test mass, with all moving mechanical parts positioned at a large distance. We provide a description of the apparatus and present the first results. We identified a systematic effect of thermal origin, producing offsets of few fNm in torque and of about 10 pN in force. When this effect is neutralized, the measurements agree well with the predictions of simulations. We also discuss the upcoming instrument upgradations and the expected sensitivity improvement that will allow us to perform measurements with adequate accuracy to investigate the unexplored regions of the α-λ parameter space of a Yukawa-like deviation from the Newtonian potential.
Measurement of gravitational and thermal effects in a liquid-actuated torsion pendulum / Allocca, Annalisa; Bassan, Massimo; DE LAURENTIS, Martina; DE ROSA, Rosario; Di Fiore, Luciano; D’Onofrio, Luca; Errico, Luciano; Garufi, Fabio; Grado, Aniello; Hoyle, C. D.; Lucchesi, David; Minenkov, Yury; Passeggio, Giuseppe; Pucacco, Giuseppe; Sequino, Valeria; Tarallo, Oreste; Trozzo, Lucia; Visco, Massimo. - In: REVIEW OF SCIENTIFIC INSTRUMENTS. - ISSN 0034-6748. - 94:11(2023). [10.1063/5.0162604]
Measurement of gravitational and thermal effects in a liquid-actuated torsion pendulum
Annalisa Allocca;Martina De Laurentis;Rosario De Rosa;Luca D’Onofrio;Luciano Errico;Fabio Garufi;Valeria Sequino;Oreste Tarallo;
2023
Abstract
: We describe a proof-of-principle experiment aiming to investigate the inverse-square law of gravitation at the centimeter scale. The sensor is a two-stage torsion pendulum, while actuation is accomplished by a variable liquid mass. The time-varying gravitational force is related to the level of the circulating fluid in one or two containers at a short distance from the test mass, with all moving mechanical parts positioned at a large distance. We provide a description of the apparatus and present the first results. We identified a systematic effect of thermal origin, producing offsets of few fNm in torque and of about 10 pN in force. When this effect is neutralized, the measurements agree well with the predictions of simulations. We also discuss the upcoming instrument upgradations and the expected sensitivity improvement that will allow us to perform measurements with adequate accuracy to investigate the unexplored regions of the α-λ parameter space of a Yukawa-like deviation from the Newtonian potential.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.