Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test body in vacuum. In this paper, two large disturbing effects are studied, namely, the non- gravitational accelerations originated by rotation and translation of the flying body. Their contribution to the uncertainty of the free-fall acceleration is evaluated using the method proposed in Supplement 1 to the GUM. The analysis is specifically applied to the IMGC-02 absolute gravimeter, but can be easily extended to other instruments
Today's most accurate measurements of the gravitational acceleration are based on interferometric re...
The Gravimetry Group of the Institute of Metrology “G. Colonnetti” (IMGC-CNR), nowadays National Ins...
The described work was carried out on June 2016 by the Istituto Nazionale di Ricerca Metrologica (IN...
Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test b...
Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test b...
Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test b...
In ballistic absolute gravimeters, the length of the analyzed trajectory of the falling object plays...
Over the past thirty years the development of transportable ballistic absolute gravity meters has d...
The knowledge of the acceleration g due to gravity plays an important role in force metrology in cal...
Studies in gravimetry for the earth and celestial bodies insert in a more large context of our insti...
Absolute Gravimetry widely uses optical interferometry methods to track the trajectory of a free-fal...
The described work was carried out on November 2015 by the Istituto Nazionale di Ricerca Metrologica...
The described work was carried out on November 2013 by the Istituto Nazionale di Ricerca Metrologica...
Absolute ballistic gravimeters can measure the free-fall acceleration with an uncertainty of few par...
The design and first results of two free-fall absolute gravimeters are reported: a stationary gravim...
Today's most accurate measurements of the gravitational acceleration are based on interferometric re...
The Gravimetry Group of the Institute of Metrology “G. Colonnetti” (IMGC-CNR), nowadays National Ins...
The described work was carried out on June 2016 by the Istituto Nazionale di Ricerca Metrologica (IN...
Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test b...
Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test b...
Absolute gravity measurements are based on the reconstruction of the free-falling motion of a test b...
In ballistic absolute gravimeters, the length of the analyzed trajectory of the falling object plays...
Over the past thirty years the development of transportable ballistic absolute gravity meters has d...
The knowledge of the acceleration g due to gravity plays an important role in force metrology in cal...
Studies in gravimetry for the earth and celestial bodies insert in a more large context of our insti...
Absolute Gravimetry widely uses optical interferometry methods to track the trajectory of a free-fal...
The described work was carried out on November 2015 by the Istituto Nazionale di Ricerca Metrologica...
The described work was carried out on November 2013 by the Istituto Nazionale di Ricerca Metrologica...
Absolute ballistic gravimeters can measure the free-fall acceleration with an uncertainty of few par...
The design and first results of two free-fall absolute gravimeters are reported: a stationary gravim...
Today's most accurate measurements of the gravitational acceleration are based on interferometric re...
The Gravimetry Group of the Institute of Metrology “G. Colonnetti” (IMGC-CNR), nowadays National Ins...
The described work was carried out on June 2016 by the Istituto Nazionale di Ricerca Metrologica (IN...