Gamma Ray Energy Measurement using the Multiple Compton Technique
Abstract
Modern developments in detector and electronics technology now enable a new generation of gamma ray detectors based on recording each and every energy loss associated with an incident gamma ray. The energy of an incident gamma ray is determined by measuring the positions of the first three interactions, and the energy loss of the first two. The direction of the incident gamma ray is restricted to a conical range of possible directions. The significance of such a detector is at least three-fold: First, a gamma ray need not be totally absorbed in order to measure its full energy. Thus relatively thinner detectors are possible. Detection efficiencies approaching 40% at 1 MeV are possible in a silicon detector system of only 40 g/cm2 thickness. Second these detectors are naturally imaging without the need for a complex aperture or collimator. Third, these detectors have little or no Compton shelf, thus Compton rejection or heavy shielding is no longer required. We report on a simple demonstration measurement using three position sensitive detectors.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 01, 2000
- Accession Number
- ADA596971
Entities
People
- B. F. Phlips
- E. A. Wulf
- James D. Kurfess
- Richard A. Kroeger
- W. Neil Johnson
Organizations
- United States Naval Research Laboratory