The generalized perturbation method is described relevant to ratios of bi-linear functionals of the real and adjoint neutron fluxes of critical multiplying systems. Simple linear analysis for optimization and sensitivity studies are then feasible relative to spectrum and space-dependent quantities, such as Doppler and coolant void reactivity effects in fast reactors
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
Abstract: This paper presents basic formulas of the linear perturbation theory and their f...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
The generalized perturbation method is described relevant to ratios of bi-linear functionals of the ...
Perturbation theory for changes in linear and bilinear functionals of the forward and adjoint fluxes...
Computational capability has been developed to calculate sensitivity coefficients of generalized res...
Perturbation theory is developed for the nonlinear burnup equations describing the time-dependent be...
Currently in most of the neutronic codes the HGPT methodology is used to operate sensitivities analy...
Perturbation methods are part of the reactor physics foundation devoted to the study of fundamental ...
ABSTRACT Perturbation theory based sensitivity analysis is a vital part of todays' nuclear reac...
The paper considers the applicability of small perturbation theory to assessing the variations of th...
A generalized sensitivity theory based on adjoint functions has been recently developed for systems ...
Abstract In recent years an increasing interest is observed with respect to subcritical, accelerator...
During the last years, perturbation techniques have been widely implemented for the analysis of the ...
International audienceSensitivity analysis studies the effect of a change in a given parameter to a ...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
Abstract: This paper presents basic formulas of the linear perturbation theory and their f...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
The generalized perturbation method is described relevant to ratios of bi-linear functionals of the ...
Perturbation theory for changes in linear and bilinear functionals of the forward and adjoint fluxes...
Computational capability has been developed to calculate sensitivity coefficients of generalized res...
Perturbation theory is developed for the nonlinear burnup equations describing the time-dependent be...
Currently in most of the neutronic codes the HGPT methodology is used to operate sensitivities analy...
Perturbation methods are part of the reactor physics foundation devoted to the study of fundamental ...
ABSTRACT Perturbation theory based sensitivity analysis is a vital part of todays' nuclear reac...
The paper considers the applicability of small perturbation theory to assessing the variations of th...
A generalized sensitivity theory based on adjoint functions has been recently developed for systems ...
Abstract In recent years an increasing interest is observed with respect to subcritical, accelerator...
During the last years, perturbation techniques have been widely implemented for the analysis of the ...
International audienceSensitivity analysis studies the effect of a change in a given parameter to a ...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...
Abstract: This paper presents basic formulas of the linear perturbation theory and their f...
Sensitivity analysis studies the effect of a change in a given parameter to a response function of t...