Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kinematics of neutrons. Since also the nuclides in nuclear reactor materials are in constant thermal motion, the temperature-induced effects need to be taken into account in all neutron transport calculations. This task is notably complicated by the fact that the temperature distributions within operating power reactors are always non-uniform. With conventional transport methods, accurate modeling of temperature distributions within a reactor is cumbersome. The temperature distributions that are in reality continuous in space need to be approximated with regions of uniform temperature. More importantly, pre-generated temperature-dependent data ...
This thesis presents a compilation of work focused on Monte Carlo crit-icality, kinetics and burnup ...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
This thesis investigates Monte Carlo methods applied to criticality and time-dependent problems in r...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
The probability of a nuclear reaction to occur when two particles interact with each other is descri...
In this study, temperature distribution in the mechanical loading device for irradiation experiments...
The target motion sampling (TMS) temperature treatment technique, previously known as “explicit trea...
The goal of this thesis was the design and implementation of a temperature solver routine for the Mo...
This article discusses the optimization of the target motion sampling (TMS) temperature treatment me...
This paper introduces a new stochastic method for taking the effect of thermal motion into account o...
The Monte-Carlo neutron transport calculations in nuclear fuels depend on the crystalline structure ...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
This thesis presents a compilation of work focused on Monte Carlo crit-icality, kinetics and burnup ...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
This thesis investigates Monte Carlo methods applied to criticality and time-dependent problems in r...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
The accurate modeling of nuclear reactors is essential to the safe and economic operation of current...
Monte Carlo neutron transport codes are widely used in various reactor physics applications, traditi...
The probability of a nuclear reaction to occur when two particles interact with each other is descri...
In this study, temperature distribution in the mechanical loading device for irradiation experiments...
The target motion sampling (TMS) temperature treatment technique, previously known as “explicit trea...
The goal of this thesis was the design and implementation of a temperature solver routine for the Mo...
This article discusses the optimization of the target motion sampling (TMS) temperature treatment me...
This paper introduces a new stochastic method for taking the effect of thermal motion into account o...
The Monte-Carlo neutron transport calculations in nuclear fuels depend on the crystalline structure ...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
This thesis presents a compilation of work focused on Monte Carlo crit-icality, kinetics and burnup ...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
This thesis investigates Monte Carlo methods applied to criticality and time-dependent problems in r...