Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is being developed as a part of the Monte Carlo reactor physics code Serpent. The method provides for modeling of arbitrary temperatures in continuous-energy Monte Carlo tracking routines with only one set of cross sections stored in the computer memory. Previously, only the performance of the TMS method in terms of CPU time per transported neutron has been discussed. Since the effective cross sections are not calculated at any point of a transport simulation with TMS, reaction rate estimators must be scored using sampled cross sections, which is expected to increase the variances and, consequently, to decrease the figures-of-merit. This paper exami...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
International audienceThese studies are performed in the general framework of transient coupled calc...
The methodology to derive cross section data from measurements in a cold neutron beam was studied. M...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
The target motion sampling (TMS) temperature treatment technique, previously known as “explicit trea...
This article discusses the optimization of the target motion sampling (TMS) temperature treatment me...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
This paper discusses the generation of temperature majorant cross sections, the type of cross sectio...
This paper introduces a new stochastic method for taking the effect of thermal motion into account o...
This article discusses the preliminary implementation of the new explicit temperature treatment meth...
MCNP has stood so far as one of the main Monte Carlo radiation transport codes. Its use, as any othe...
International audienceMonte Carlo methods have been used for nuclear applications since the beginnin...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
International audienceThese studies are performed in the general framework of transient coupled calc...
The methodology to derive cross section data from measurements in a cold neutron beam was studied. M...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
Target Motion Sampling (TMS) is a stochastic on-the-fly temperature treatment technique that is bein...
The target motion sampling (TMS) temperature treatment technique, previously known as “explicit trea...
This article discusses the optimization of the target motion sampling (TMS) temperature treatment me...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
This paper discusses the generation of temperature majorant cross sections, the type of cross sectio...
This paper introduces a new stochastic method for taking the effect of thermal motion into account o...
This article discusses the preliminary implementation of the new explicit temperature treatment meth...
MCNP has stood so far as one of the main Monte Carlo radiation transport codes. Its use, as any othe...
International audienceMonte Carlo methods have been used for nuclear applications since the beginnin...
Thermal motion of nuclides has a significant effect on the reaction probabilities and scattering kin...
International audienceThese studies are performed in the general framework of transient coupled calc...
The methodology to derive cross section data from measurements in a cold neutron beam was studied. M...