Abstract
Radioxenon monitoring is one of the important methods used by the Comprehensive Nuclear-Test-Ban Treaty Organization (CTBTO) to detect a clandestine nuclear weapon test. Many radioxenon detection systems have been developed in the past few decades. The disadvantages such as bad energy resolution, memory effect, and large size influence the performance of these systems. This work introduces a new detection system that utilizes a PIPSCell and two CZT-Arrays for radioxenon monitoring. Signals from ten detectors are processed and coincidence events are identified via the electronics based on time-stamped list mode. This compact system has good radiation detection resolution at room temperature and high detection sensitivity for both electron and gamma-ray. Preliminary 137Cs and 131mXe are used to calibrate the energy and efficiency of the system. Combined with the simulation results the minimum detection activity of four radioxenon were assessed.
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