Matheus Gimenez Fernandes, R. B. Campanelli, Gustavo Siqueira Gomes, J. Polli, E.B. Antonio
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引用次数: 0
Abstract
At the Sirius synchrotron facility, large area photon counting detector systems are employed in different beamlines and experimental techniques. These detectors were developed at the Brazilian Synchrotron Light Laboratory (LNLS), the called PIMEGA series detectors feature Medipix3RX Application Specific Integrated Circuit (ASIC), with 256 x 256 squared pixels and 55 µ m pitch. In this work, the influence of the threshold energy level was evaluated in order to achieve optimized values for minimizing false counts during operation, which arise from the charge sharing effect. As a result, we have defined the Approximated Mean Multiplicity (AMM), which can be used as a new procedure in photon counting detectors to define an optimal operation threshold level. Additionally, energy calibrations and energy resolution experiments are presented, as well as the AMM values for multiple operation bias voltages and incident energies.
在天狼星同步加速器设施,大面积光子计数探测器系统采用不同的光束线和实验技术。这些探测器是由巴西同步加速器光实验室(LNLS)开发的,称为PIMEGA系列探测器具有Medipix3RX应用专用集成电路(ASIC),具有256 x 256平方像素和55 μ m间距。在这项工作中,评估了阈值能级的影响,以获得优化值,以最大限度地减少运行过程中由电荷共享效应引起的误计数。因此,我们定义了近似平均多重性(AMM),它可以作为光子计数检测器中定义最佳操作阈值水平的新方法。此外,还介绍了能量校准和能量分辨实验,以及多种工作偏置电压和入射能量下的AMM值。
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