Abstract
The energy resolution of thallium bromide (TlBr) detectors is significantly limited by charge-trapping effect and pulse ballistic deficit, caused by the slow charge collection time. A digital pulse processing algorithm has been developed aiming to compensate for charge-trapping effect, while minimizing pulse ballistic deficit. The algorithm is examined using a 1mm thick TlBr detector and an excellent energy resolution of 3.37% at 662keV is achieved at room temperature. The pulse processing algorithms are presented in recursive form, suitable for real-time implementations.
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