Add to ORKGIncludes bibliographical references.A Monte Carlo code MUGLU has been, written for the simulation of experiments to measure alpha-muon sticking in muon catalysed deuterium-tritium fusion. The experiments simulated are those which measure the ratio of αμ to α from fusion in a low density gas target by detecting collinear alpha-neutron coincidences and relying on the differing stopping powers of the α and αμ ions. The Monte Carlo simulations provide estimates of geometrical and detection efficiency factors required for the calculation of the sticking coefficient from the experimental measurements. Simulations have been made of alternative experimental geometries in order to investigate the α-neutron coincidence signature and other characteris...
We review the recent simulations of muon production targets using the GEANT4 framework. Options for ...
This work explores the nature of several sources of uncertainty in the neutronics of nuclear fusion ...
The purpose of the Long–Baseline Neutrino Experiment is to make measurements of neutrino oscillation...
Includes bibliographical references.The origin of the experimentally observed density dependence of ...
We present the first measurements of the muon-induced neutron flux at the Boulby Underground Laborat...
With ever-increasing interest in manned space missions, engineers are exploring a variety of excitin...
Two important stages in the kinetics of muon-catalyzed d-t fusion are discussed: (1) atomic thermali...
We report on a comparison study of the Monte Carlo packages GEANT4 and FLUKA for simulating neutron ...
In this dissertation, we calculate the power capacity and tritium replacement ratios for muon cataly...
It is determined, how we can take into account the contribution of the nonthermalyzed tµ atoms [1] i...
Summary in English.Bibliography: pages 82-83.The possibility of muon-catalysed dd fusion via a Vesma...
Simulations of muon interactions with high Z material using two different muon energies, 100 MeV and...
The muon magnetic anomaly is defined as a_μ = (g_μ − 2)/2, where g_μ is the muon gyromagnetic ratio....
Nuclear data are the foundation of simulation and design in the nuclear industry. The success of com...
The neutrons and gamma rays created in nuclear reactions provide a way to measure conditions in Iner...
We review the recent simulations of muon production targets using the GEANT4 framework. Options for ...
This work explores the nature of several sources of uncertainty in the neutronics of nuclear fusion ...
The purpose of the Long–Baseline Neutrino Experiment is to make measurements of neutrino oscillation...
Includes bibliographical references.The origin of the experimentally observed density dependence of ...
We present the first measurements of the muon-induced neutron flux at the Boulby Underground Laborat...
With ever-increasing interest in manned space missions, engineers are exploring a variety of excitin...
Two important stages in the kinetics of muon-catalyzed d-t fusion are discussed: (1) atomic thermali...
We report on a comparison study of the Monte Carlo packages GEANT4 and FLUKA for simulating neutron ...
In this dissertation, we calculate the power capacity and tritium replacement ratios for muon cataly...
It is determined, how we can take into account the contribution of the nonthermalyzed tµ atoms [1] i...
Summary in English.Bibliography: pages 82-83.The possibility of muon-catalysed dd fusion via a Vesma...
Simulations of muon interactions with high Z material using two different muon energies, 100 MeV and...
The muon magnetic anomaly is defined as a_μ = (g_μ − 2)/2, where g_μ is the muon gyromagnetic ratio....
Nuclear data are the foundation of simulation and design in the nuclear industry. The success of com...
The neutrons and gamma rays created in nuclear reactions provide a way to measure conditions in Iner...
We review the recent simulations of muon production targets using the GEANT4 framework. Options for ...
This work explores the nature of several sources of uncertainty in the neutronics of nuclear fusion ...
The purpose of the Long–Baseline Neutrino Experiment is to make measurements of neutrino oscillation...