Compensating for charge sharing by a deep-learning method: a preliminary experimental study

Abstract

Photon counting detectors (PCDs) bring valuable advantages to diagnostic computed tomography (CT), including lower noise and higher resolution than energy integrating detectors. However, there are still several nonideal factors preventing PCDs from meeting people's expectations, for example, charge sharing and pile up. In this paper, we did some preliminary work on charge sharing and conducted an experimental study using an XCounter PCD to compare the effects of no anti-coincidence, anti-coincidence by hardware and charge sharing compensation by a deep learning method. In our results, a smaller bias and standard deviation are obtained from deep learning method than directly from no-anti-coincidence mode of the detector. Our network also outperforms the anti-coincidence mode of the detector in the low energy bin and has smaller standard deviation in the high energy bin. The results validate that a deep learning method is suitable to compensate for charge sharing.