Development of Above Ground Antineutrino Detectors for Reactor Monitoring and Safeguards
Abstract not provided.
Publications
Development of Above Ground Antineutrino Detectors for Reactor Monitoring and Safeguards
Abstract not provided.
Coherent neutrino-nuclear scattering with Germanium
Abstract not provided.
Pushing Coherent Scattering Forward: A personal perspective
Abstract not provided.
Radiation and Nuclear Detection Systems
Abstract not provided.
Development of a Germanium Detector for Reactor Monitoring
Abstract not provided.
Development of coherent germanium neutrino technology (CoGeNT) for reactor safeguards
Abstract not provided.
Kiloton Detector Site Selection Criteria
Abstract not provided.
Analysis of the Antineutrino Signature of LEU/MOX Fueled LWRs
Abstract not provided.
Integrating GEANT4 Into a Fast Optical Photon Monte Carlo Simulation
Abstract not provided.
Analysis of the Antineutrino Signature of LEU/MOX Fueled LWRs
Abstract not provided.
A Compact and Portable Antineutrino Detector for Reactor Monitoring
Abstract not provided.
A Compact and Portable Antineutrino Detector for Reactor Monitoring
Abstract not provided.
NA-22 Project Review: Above-Ground Reactor Monitoring Project Overview
Abstract not provided.
A compact and portable antineutrino detector for reactor monitoring
Abstract not provided.
Neutron Detection and Identification using ZnS:Ag/6Li in Segmented Antineutrino Detectors
Abstract not provided.
A Segmented Scintillator Detector for Aboveground Detection of Reactor Antineutrinos
Abstract not provided.
Prospects of Reactor Monitoring with Germanium Antineutrino Detection System
Abstract not provided.
Neutron detection and identification using ZnS:Ag/6LiF in segmented antineutrino detectors
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Antineutrino detection using inverse beta-decay conversion has demonstrated capability to measure nuclear reactor power and fissile material content for nuclear safeguards. Current efforts focus on aboveground deployment scenarios, for which a successful background rejection strategy will be needed to measure the anticipated antineutrino event rates. In this paper, we report on initial studies to quantify the intrinsic capture efficiency and particle identification capabilities of a new scintillation-based segmented design that uses layers of ZnS:Ag/6LiF to capture and identify neutrons created in the inverse beta-decay reaction. Laboratory efficiency measurements are consistent with MCNP5 calculations, estimating 6Li neutron conversion efficiency above 50% for practical full-scale detector configurations. © 2010 Elsevier B.V.
Coherent neutrino-nuclear scattering with Germanium
Abstract not provided.
Aboveground Antineutrino Detectors for Reactor Monitoring and Safeguards
Abstract not provided.
Prospects of Reactor Monitoring with a Germanium Antineutrino Detection System
Abstract not provided.
Prospects of Reactor Monitoring with a Germanium Antineutrino Detection System (Supporting Summary)
Abstract not provided.
Advances Toward a Transportable Antineutrino Detector System for Reactor Monitoring and Safeguards
Abstract not provided.
Advances Toward a Transportable Antineutrino Detector System for Reactor Monitoring and Safeguards
Abstract not provided.
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