Fabry-Perot (FP) cavity based refractometers are subjected to pressureinduced deformation when exposed to gas that changes their lengths. Unless this is taken into consideration properly, pressure assessments can be adversely affected. It is therefore of importance to accurately assess the amount of deformation of such cavities. Two major means of doing this are simulations and experimental characterizations. In the EMPIR project ”QuantumPascal”, several FPC systems have been characterized with respect to their pressure-induced deformation, (ΔL/L)/P, by simulations. It was found that their pressure-normalized relative deformation ranges over more than a factor of 35, from 0.2 × 10−12 to 7.8 × 10−12 Pa−1. More importantly, several of these c...
Refractometry is a powerful technique for pressure assessments that, due to the recent redefinition ...
By measuring the refractivity and the temperature of a gas, its pressure can be calculated from fund...
A technique for high-precision and high-accuracy assessment of both gas molar (and number) density a...
A novel procedure for a robust assessment of cavity deformation in Fabry-Perot (FP) refractometers i...
The present report constitutes the D1 report addressed to EURAMET of the first work package ”Pressur...
The 18SIB04 QuantumPascal EMPIR project aims for development of photon-based standards that can repl...
Although Fabry-Perot-cavity (FPC) based refractometry has demonstrated an extraordinary potential fo...
The 18SIB04 QuantumPascal EMPIR project aims for development of photon-based standards that can repl...
The authors report on the realization of a novel methodology for refractometry - GAs modulation refr...
By measuring the refractivity and the temperature of a gas, its pressure can be assessed from fundam...
The authors report on the realization of a novel methodology for refractometry-GAs modulation refrac...
Refractometry is a powerful technique for pressure assessments that, due to the recent redefinition ...
By measuring the refractivity and the temperature of a gas, its pressure can be calculated from fund...
A technique for high-precision and high-accuracy assessment of both gas molar (and number) density a...
A novel procedure for a robust assessment of cavity deformation in Fabry-Perot (FP) refractometers i...
The present report constitutes the D1 report addressed to EURAMET of the first work package ”Pressur...
The 18SIB04 QuantumPascal EMPIR project aims for development of photon-based standards that can repl...
Although Fabry-Perot-cavity (FPC) based refractometry has demonstrated an extraordinary potential fo...
The 18SIB04 QuantumPascal EMPIR project aims for development of photon-based standards that can repl...
The authors report on the realization of a novel methodology for refractometry - GAs modulation refr...
By measuring the refractivity and the temperature of a gas, its pressure can be assessed from fundam...
The authors report on the realization of a novel methodology for refractometry-GAs modulation refrac...
Refractometry is a powerful technique for pressure assessments that, due to the recent redefinition ...
By measuring the refractivity and the temperature of a gas, its pressure can be calculated from fund...
A technique for high-precision and high-accuracy assessment of both gas molar (and number) density a...