The QuantumPascal (QP) project combines the capabilities of 12 European institutions to enable traceable pressure measurements utilizing quantum-based methods that evaluate the number density instead of force per area to target the wide pressure range between 1 Pa and 3 MPa. This article summarizes the goals and results since the project start in June 2019
Quantum-based realizations of the pascal: status and progress of the EMPIR-project: quantumpascal / Rubin, T.; Silander, I.; Forssén, C.; Zakrisson, J.; Amer, E.; Szabo, D.; Bock, T.; Kussicke, A.; Günz, C.; Mari, D.; Gavioso, R. M.; Pisani, M.; Madonna Ripa, D.; Silvestri, Z.; Gambette, P.; Bentouati, D.; Garberoglio, G.; Lesiuk, M.; Przybytek, M.; Jeziorski, B.; Setina, J.; Zelan, M.; Axner, O.. - (2022), pp. 1-7. (Intervento presentato al convegno Joint IMEKO TC3, T5, TC16 and TC22 International Conference) [10.21014/tc16-2022.103].
Quantum-based realizations of the pascal: status and progress of the EMPIR-project: quantumpascal
Mari, D.;Gavioso, R. M.;Pisani, M.;Madonna Ripa, D.;
2022
Abstract
The QuantumPascal (QP) project combines the capabilities of 12 European institutions to enable traceable pressure measurements utilizing quantum-based methods that evaluate the number density instead of force per area to target the wide pressure range between 1 Pa and 3 MPa. This article summarizes the goals and results since the project start in June 2019| File | Dimensione | Formato | |
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