2016 SNL/CA New Hire Orientation
Abstract not provided.
Publications
Sandia's California Laboratory
Abstract not provided.
Sandia's California Laboratory
Abstract not provided.
Overview of Sandia's Radiation and Nuclear Security Program
Abstract not provided.
Introduction to Sandia California
Abstract not provided.
Trusted Processing: Trusted Radiation Identification System (TRIS)
Abstract not provided.
Monitoring of Reactors with Antineutrinos
Abstract not provided.
Template Measurement Approach
Abstract not provided.
ULGeN Independent Program Review
Abstract not provided.
Sandia National Laboratories-An Overview
Abstract not provided.
Radiation and Nuclear Detection Systems
Abstract not provided.
EO in a nutshell - AWE visit
Abstract not provided.
Material Identification by Resonance Attenuation (MIRA) can identify elements and show their 3D shape
Abstract not provided.
Detecting ionizing events with electro-optic techniques
Abstract not provided.
Electro-optic detector
Abstract not provided.
Detection of Radiological Materials
Abstract not provided.
Thermodynamic and Kinetic Characterization of H-D exchange in Pd and Pd Alloys
Abstract not provided.
International physical protection self-assessment tool for chemical facilities
This report is the final report for Laboratory Directed Research and Development (LDRD) Project No.130746, International Physical Protection Self-Assessment Tool for Chemical Facilities. The goal of the project was to develop an exportable, low-cost, computer-based risk assessment tool for small to medium size chemical facilities. The tool would assist facilities in improving their physical protection posture, while protecting their proprietary information. In FY2009, the project team proposed a comprehensive evaluation of safety and security regulations in the target geographical area, Southeast Asia. This approach was later modified and the team worked instead on developing a methodology for identifying potential targets at chemical facilities. Milestones proposed for FY2010 included characterizing the international/regional regulatory framework, finalizing the target identification and consequence analysis methodology, and developing, reviewing, and piloting the software tool. The project team accomplished the initial goal of developing potential target categories for chemical facilities; however, the additional milestones proposed for FY2010 were not pursued and the LDRD funding therefore was redirected.
Uranium for hydrogen storage applications : a materials science perspective
Under appropriate conditions, uranium will form a hydride phase when exposed to molecular hydrogen. This makes it quite valuable for a variety of applications within the nuclear industry, particularly as a storage medium for tritium. However, some aspects of the U+H system have been characterized much less extensively than other common metal hydrides (particularly Pd+H), likely due to radiological concerns associated with handling. To assess the present understanding, we review the existing literature database for the uranium hydride system in this report and identify gaps in the existing knowledge. Four major areas are emphasized: {sup 3}He release from uranium tritides, the effects of surface contamination on H uptake, the kinetics of the hydride phase formation, and the thermal desorption properties. Our review of these areas is then used to outline potential avenues of future research.
Copy of International Aircraft Radiation Detection (IARD) Generic Training Package
Abstract not provided.
ITC-20 Evaluation Section
Abstract not provided.
Observation of Metastable Erbium Trihydride
Abstract not provided.
22 Results