Dataset of perturbed nuclear data files employed in the Serpent Monte Carlo code for the nuclear data uncertainty propagation analysis of the Affordable, Robust and Compact (ARC) fusion reactor. Each perturbed nuclide has its specific folder, which contains the different nuclear data libraries and the different uncertainty propagation (UP) techniques employed, like the fast Total Monte Carlo (fTMC), the GRS and the Unscented Transform (UT)
For the successful deployment of advanced nuclear systems and optimization of current reactor design...
Dataset and codes to allow the reproducibility of the results presented in the publication: N. Abrat...
Nuclear data uncertainty propagation based on stochastic sampling ( SS) is becoming more attractive ...
Dataset of perturbed nuclear data files employed in the Serpent Monte Carlo code for the nuclear dat...
An uncertainty propagation methodology based on the Monte Carlo method is applied to PWR nuclear des...
An uncertainty propagation methodology based on the Monte Carlo method is applied to PWR nuclear des...
This repository contains the dataset, post-processing script and models needed to reproduce the resu...
International audienceThe development of tools for nuclear data uncertainty propagation in lattice c...
An uncertainty propagation methodology based on Monte Carlo method is applied to PWR nuclear design ...
The aim of this work is to review different Monte Carlo techniques used to propagate nuclear data un...
The effects of nuclear data uncertainties are studied on a typical PWR fuel assembly model in the fr...
The effects of nuclear data uncertainties are studied on a typical PWR fuel assembly model in the fr...
Two distinct methods of propagation for basic nuclear data uncertainties to large scale systems will...
The ASUSD program package was designed to automate and simplify the process of deterministic nuclear...
For the successful deployment of advanced nuclear systems and for optimization of current reactor de...
For the successful deployment of advanced nuclear systems and optimization of current reactor design...
Dataset and codes to allow the reproducibility of the results presented in the publication: N. Abrat...
Nuclear data uncertainty propagation based on stochastic sampling ( SS) is becoming more attractive ...
Dataset of perturbed nuclear data files employed in the Serpent Monte Carlo code for the nuclear dat...
An uncertainty propagation methodology based on the Monte Carlo method is applied to PWR nuclear des...
An uncertainty propagation methodology based on the Monte Carlo method is applied to PWR nuclear des...
This repository contains the dataset, post-processing script and models needed to reproduce the resu...
International audienceThe development of tools for nuclear data uncertainty propagation in lattice c...
An uncertainty propagation methodology based on Monte Carlo method is applied to PWR nuclear design ...
The aim of this work is to review different Monte Carlo techniques used to propagate nuclear data un...
The effects of nuclear data uncertainties are studied on a typical PWR fuel assembly model in the fr...
The effects of nuclear data uncertainties are studied on a typical PWR fuel assembly model in the fr...
Two distinct methods of propagation for basic nuclear data uncertainties to large scale systems will...
The ASUSD program package was designed to automate and simplify the process of deterministic nuclear...
For the successful deployment of advanced nuclear systems and for optimization of current reactor de...
For the successful deployment of advanced nuclear systems and optimization of current reactor design...
Dataset and codes to allow the reproducibility of the results presented in the publication: N. Abrat...
Nuclear data uncertainty propagation based on stochastic sampling ( SS) is becoming more attractive ...