2019
DOI: 10.1088/1681-7575/ab33de
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Use of the relativistic phase-time equation in absolute ballistic gravimetry

Abstract: The signal recorded in absolute ballistic gravimeters and used to track the trajectory of the free-falling corner-cube was recently studied for the first time in full agreement with relativistic effects. The outcome was an original phase-time equation describing the optical interference as a function of initial position, initial speed, dimensions and refractive index of the corner-cube. This offers the unique possibility to check possible systematic errors affecting data collected using the conventional positi… Show more

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“…The apparently large effect on g arising from dimensions and refractive index of the cube resulted in several critical comments [2][3][4], and replies [5][6][7], without throwing light on the real issues. D'Agostino [8] simulated dropping of glass and open retroreflectors using only the difference ϕ(t)−ϕ(0) for the interference observations. This subtraction removes nonrelativistic terms responsible for the predicted change [1] in g, as well as some relativistic contributions.…”
Section: Introductionmentioning
confidence: 99%
“…The apparently large effect on g arising from dimensions and refractive index of the cube resulted in several critical comments [2][3][4], and replies [5][6][7], without throwing light on the real issues. D'Agostino [8] simulated dropping of glass and open retroreflectors using only the difference ϕ(t)−ϕ(0) for the interference observations. This subtraction removes nonrelativistic terms responsible for the predicted change [1] in g, as well as some relativistic contributions.…”
Section: Introductionmentioning
confidence: 99%