Characterization of a Large Area Hybrid Pixel Detector of Timepix3 Technology for Space Applications

Martin Farkas, B. Bergmann, P. Broulim, P. Burian, Giovanni Ambrosi, P. Azzarello, L. Pušman, M. Sitarz, P. Smolyanskiy, D. Sukhonos, Xin Wu
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Abstract

We present the characterization of a highly segmented “large area” hybrid pixel detector (Timepix3, 512 × 512 pixels, pixel pitch 55 µm) for application in space experiments. We demonstrate that the nominal power consumption of 6 W can be reduced by changing the settings of the Timepix3 analog front-end and reducing the matrix clock frequency (from the nominal 40 MHz to 5 MHz) to 2 W (in the best case). We then present a comprehensive study of the impact of these changes on the particle tracking performance, the energy resolution and time stamping precision by utilizing data measured at the Super-Proton-Synchrotron (SPS) at CERN and at the Danish Center for Particle Therapy (DCPT). While the impact of the slower sampling frequency on energy measurement can be mitigated by prolongation of the falling edge of the analog signal, we find a reduction of the time resolution from 1.8 ns (in standard settings) to 5.6 ns (in analog low-power), which is further reduced utilizing a lower sampling clock (e.g., 5 MHz, in digital low-power operation) to 73.5 ns. We have studied the temperature dependence of the energy measurement for ambient temperatures between −20 ∘ and 50 ∘C separately for the different settings.
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用于太空应用的 Timepix3 技术大面积混合像素探测器的特性分析
我们介绍了应用于空间实验的高分割 "大面积 "混合像素探测器(Timepix3,512 × 512 像素,像素间距 55 µm)的特性。我们证明,通过改变 Timepix3 模拟前端的设置和降低矩阵时钟频率(从标称的 40 MHz 降至 5 MHz),可将 6 W 的标称功耗降至 2 W(最佳情况)。然后,我们利用在欧洲核子研究中心(CERN)的超级质子同步加速器(SPS)和丹麦粒子治疗中心(DCPT)测量的数据,全面研究了这些变化对粒子跟踪性能、能量分辨率和时间戳精度的影响。虽然较慢的采样频率对能量测量的影响可以通过延长模拟信号的下降沿来缓解,但我们发现时间分辨率从 1.8 毫微秒(标准设置)降低到 5.6 毫微秒(模拟低功耗),而使用较低的采样时钟(例如数字低功耗操作中的 5 兆赫)则进一步降低到 73.5 毫微秒。我们分别研究了不同设置下,环境温度在 -20 ∘ 和 50 ∘C 之间时能量测量的温度相关性。
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