Add to ORKGA stochastic theory for a branching process in a neutronpopulation with two energy levels is used to assess theapplicability of the differential self-interrogation Feynman-alpha method by numerically estimated reaction intensities from Monte Carlo simulations. More specifically, the variance to mean or Feynman-alpha formula is applied to investigate the appearing exponentials using the numerically obtained reaction intensities
Recently, a modified Feynman-alpha technique for the subcritical system driven by periodically trigg...
This paper considers the application of the Feynman method of neutron noise analysis for determinati...
The neutron population in multiplying systems containing a weak random source departs significantly ...
A stochastic theory for a branching process in a neutron population with two energy levels is used t...
A Feynman-alpha formula has been derived in a two region domain pertaining the stochastic differenti...
In this contribution, a stochastic theory for a branching process in a neutron population with two e...
This paper presents a full derivation of the variance-to-mean or Feynman-alpha formula in a two-ener...
The Feynmann and other fluctuation techniques have been shown to be useful for determining the multi...
An effective method of calculating the pulsed Feynman-alpha formula for finite width pulses is intro...
Two versions of the neutron gamma variance to mean (Feynman-alpha method or Feynman-Y function) form...
The theory of the Feynman-alpha method, which is used to determine the subcritical reactivity of sys...
The theory of the Feynman-alpha method was extended to two-energy groups and two-regions by the use ...
The theory of Feynman-alpha method was extended to two-point one-group, two-group onepoint, and two-...
This paper sets up a formalism that is sufficiently general to describe the effects of photofission,...
This paper sets up a formalism that is sufficiently general to describe the effects of photofission,...
Recently, a modified Feynman-alpha technique for the subcritical system driven by periodically trigg...
This paper considers the application of the Feynman method of neutron noise analysis for determinati...
The neutron population in multiplying systems containing a weak random source departs significantly ...
A stochastic theory for a branching process in a neutron population with two energy levels is used t...
A Feynman-alpha formula has been derived in a two region domain pertaining the stochastic differenti...
In this contribution, a stochastic theory for a branching process in a neutron population with two e...
This paper presents a full derivation of the variance-to-mean or Feynman-alpha formula in a two-ener...
The Feynmann and other fluctuation techniques have been shown to be useful for determining the multi...
An effective method of calculating the pulsed Feynman-alpha formula for finite width pulses is intro...
Two versions of the neutron gamma variance to mean (Feynman-alpha method or Feynman-Y function) form...
The theory of the Feynman-alpha method, which is used to determine the subcritical reactivity of sys...
The theory of the Feynman-alpha method was extended to two-energy groups and two-regions by the use ...
The theory of Feynman-alpha method was extended to two-point one-group, two-group onepoint, and two-...
This paper sets up a formalism that is sufficiently general to describe the effects of photofission,...
This paper sets up a formalism that is sufficiently general to describe the effects of photofission,...
Recently, a modified Feynman-alpha technique for the subcritical system driven by periodically trigg...
This paper considers the application of the Feynman method of neutron noise analysis for determinati...
The neutron population in multiplying systems containing a weak random source departs significantly ...