Abstract - We discuss specific, recent advances in the analysis of an experiment to test the Equivalence Principle (EP) in free fall. A differential accelerometer detector with two proof masses of different materials free falls inside an evacuated capsule previously released from a stratospheric balloon. The detector spins slowly about its horizontal axis during the fall. An EP violation signal (if present) will manifest itself at the rotational frequency of the detector. The detector operates in a quiet environment as it slowly moves with respect to the co-moving capsule. There are, however, gravitational and dynamical noise contributions that need to be evaluated in order to define key requirements for this experiment. Specifically, highe...
Abstract - A 3-m-long, non-propelled cryostat released from a 40-km-high balloon is used to shield a...
International audienceThe MICROSCOPE space mission aims at testing the Equivalence Principle (EP) wi...
Ever since Galileo scientists have known that all bodies fall with the same acceleration regardless ...
We discuss specific, recent advances in the analysis of an experiment to test the Equivalence Princi...
Abstract. Improving the level of accuracy in testing the principle of equivalence (PE) requires rel...
This Annual Report illustrates the work carried out during the last grant-year activity on the Test ...
Abstract. We describe specific advances in the analysis and development of an experiment to test th...
This paper reports the development of an experiment (TEPEE/GReAT) to test the Equivalence Principl...
Abstract - A technique for testing the weak-equivalence principle is presented. This technique invol...
Abstract. The paper describes a free-fall facility, called enhanced g-zero, to be dropped from a ba...
Einstein’s theory of general relativity -- currently the best known description of gravitational phe...
Abstract. GReAT (General Relativity Accuracy Test) is a free fall experiment from stratospheric bal...
Abstract - The use of the GiZero free-fall facility for testing the weak equivalence principle is di...
Abstract. Some future tests of the weak equivalence principle (WEP) with laboratory-size proof mass...
Abstract - The experiment GReAT (General Relativity Accuracy Test) aims at testing the Weak Equivale...
Abstract - A 3-m-long, non-propelled cryostat released from a 40-km-high balloon is used to shield a...
International audienceThe MICROSCOPE space mission aims at testing the Equivalence Principle (EP) wi...
Ever since Galileo scientists have known that all bodies fall with the same acceleration regardless ...
We discuss specific, recent advances in the analysis of an experiment to test the Equivalence Princi...
Abstract. Improving the level of accuracy in testing the principle of equivalence (PE) requires rel...
This Annual Report illustrates the work carried out during the last grant-year activity on the Test ...
Abstract. We describe specific advances in the analysis and development of an experiment to test th...
This paper reports the development of an experiment (TEPEE/GReAT) to test the Equivalence Principl...
Abstract - A technique for testing the weak-equivalence principle is presented. This technique invol...
Abstract. The paper describes a free-fall facility, called enhanced g-zero, to be dropped from a ba...
Einstein’s theory of general relativity -- currently the best known description of gravitational phe...
Abstract. GReAT (General Relativity Accuracy Test) is a free fall experiment from stratospheric bal...
Abstract - The use of the GiZero free-fall facility for testing the weak equivalence principle is di...
Abstract. Some future tests of the weak equivalence principle (WEP) with laboratory-size proof mass...
Abstract - The experiment GReAT (General Relativity Accuracy Test) aims at testing the Weak Equivale...
Abstract - A 3-m-long, non-propelled cryostat released from a 40-km-high balloon is used to shield a...
International audienceThe MICROSCOPE space mission aims at testing the Equivalence Principle (EP) wi...
Ever since Galileo scientists have known that all bodies fall with the same acceleration regardless ...