Add to ORKGThe design task of creating an efficient radiation shield for the new COBRA double-beta decay experiment led to a comprehensive study of commercially available shielding materials. The aim was to find the most efficient combination of materials under the constraints of an extreme low-background experiment operating in a typical underground laboratory. All existing shield configurations for this type of experiment have been found to perform sub-optimally in comparison to the class of multilayered configurations proposed in this study. The method used here to create a specific shield configuration should yield a close to optimal result when applied to any experiment utilising a radiation shield. In particular, the survey of single material re...
Recent calculations indicate that the dose equivalent in an enclosed, shielded environment in a gala...
Faculty advisor: Priscilla CushmanThis research was supported by the Undergraduate Research Opportun...
The next generation of low-background physics experiments will require the use of materials with unp...
The design task of creating an efficient radiation shield for the new COBRA double-beta decay experi...
The COBRA experiment aims for the measurement of the neutrinoless double beta decay and thus for the...
This study explored how different forms of radiation shielding were more or less effective than stan...
The IsoDAR sterile-neutrino search calls for a high neutron flux from a 60 MeV proton beam striking ...
Introduction Lead-based shields are the most widely used attenuators in X-ray and gamma ray fields. ...
The purpose of this research was to develop a radiation detection device so sensitive that a decay r...
An increasing number of underground experiments looking for phenomena beyond the standard model subs...
The roadmap for space exploration foresees longer journeys and further excursions outside low-Earth ...
Purpose: X-ray radiation shielding is based on the principle of attenuation, which is the ability to...
The research aims to measure the radiation dose rate over the radiation shielding which is made of p...
A radiation shield internal to the NERVA nuclear rocket reactor required to limit the neutron and ph...
This document presents results of an investigation of the material and geometry choice for the trans...
Recent calculations indicate that the dose equivalent in an enclosed, shielded environment in a gala...
Faculty advisor: Priscilla CushmanThis research was supported by the Undergraduate Research Opportun...
The next generation of low-background physics experiments will require the use of materials with unp...
The design task of creating an efficient radiation shield for the new COBRA double-beta decay experi...
The COBRA experiment aims for the measurement of the neutrinoless double beta decay and thus for the...
This study explored how different forms of radiation shielding were more or less effective than stan...
The IsoDAR sterile-neutrino search calls for a high neutron flux from a 60 MeV proton beam striking ...
Introduction Lead-based shields are the most widely used attenuators in X-ray and gamma ray fields. ...
The purpose of this research was to develop a radiation detection device so sensitive that a decay r...
An increasing number of underground experiments looking for phenomena beyond the standard model subs...
The roadmap for space exploration foresees longer journeys and further excursions outside low-Earth ...
Purpose: X-ray radiation shielding is based on the principle of attenuation, which is the ability to...
The research aims to measure the radiation dose rate over the radiation shielding which is made of p...
A radiation shield internal to the NERVA nuclear rocket reactor required to limit the neutron and ph...
This document presents results of an investigation of the material and geometry choice for the trans...
Recent calculations indicate that the dose equivalent in an enclosed, shielded environment in a gala...
Faculty advisor: Priscilla CushmanThis research was supported by the Undergraduate Research Opportun...
The next generation of low-background physics experiments will require the use of materials with unp...