Characterization of Construction Material Properties through Gamma Spectroscopy, X-ray Fluorescence, and Hyper-spectral Imagery for Background Correction Applications in Nuclear Detection
Abstract
Material identification through hyper-spectral imagery provides a potentially useful data input for background radiation prediction models for gamma spectrum correction in mobile nuclear detection applications. Traditional background correction methods which rely on prior information are often impractical in mobile detection. Prediction models could combine material information with spatial data to develop a suitable substitute to actual background radiation measurements. This research investigates the relationship hyper-spectral properties and natural radioactivity of construction materials. A selection of construction materials are analyzed using three instrumentation methods: 1) gamma-spectroscopy, 2) X-ray fluorescence (XRF), and 3) hyper-spectral imagery. Gamma-spectroscopy focuses on the presence of potassium as well as uranium and thorium series progeny through analysis of (212)Pb, (214)Pb, (214)Bi, and (228)Ac signature peaks. XRF analysis provides the chemical composition of each material. Each materials hyper-spectral characteristics are compared to chemical composition and radioactive properties to determine if any identifying features relate to natural radioactivity.
Document Details
- Document Type
- Technical Report
- Publication Date
- Mar 27, 2014
- Accession Number
- ADA602464
Entities
People
- Jared D. Casebolt
Organizations
- Air Force Institute of Technology