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An increasing interest in quantitative tomography, able to evaluate the electric properties distribution inside the human body, arose in the last years.
In the framework of European Space Agency Study on “Uncertainty budgets for magnetic dipole models”1, methods and tools were developed for the uncertainty evaluation of equivalent magnetic dipole models, used in missions with stringent magnetic cleanliness requirements. The outcome of this activity was to provide the basis to bring agreement of models with final tests and mission performance within...
A porous silicon biosensor based on P450 enzyme for arachidonic acid detection was developed. A new transduction method is presented with a simultaneous measurement of refractive index and fluorescence intensity changes when the analyte is binding to an enzyme on the porous silicon surface. A fluorophore bound to a cysteine residue in an allosteric position of the haem domain (BMP) of cytochrome P450...
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...
Today's most accurate measurements of the gravitational acceleration are based on interferometric reconstruction of the vertical trajectory followed by a test body launched in a vacuum chamber. The gravity value g is one of the parameters of a model function derived from the law of motion of the body, and is estimated by a least squares adjustment. In this paper we present the regression analysis...
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