Simulation Study of Energy Resolution with Changing Pixel Size for Radon Monitor Based on Topmetal-II- TPC

Abstract

In this paper, we study how pixel size influences energy resolution for a proposed pixelated detector---a high sensitivity, low cost, and real-time radon monitor based on Topmetal-II- time projection chamber (TPC). Using Topmetal-II- sensors assembled by 0.35 μm CMOS Integrated Circuit process, this monitor is designed to improve the spatial resolution of detecting radon alpha particles. Concerning small pixel size might has a side effect of worsening energy resolution due to lower signal to noise ratio, a Great4-based simulation is used to figure out energy resolution dependence on pixel size ranging from 60 μm to 600 μm. A non-monotonic trend in this region shows a combination effect of pixel size with threshold on pixel, and is analyzed by introducing an empirical expression. Noise on pixel contributes 50 keV Full Width at Half Maximum (FWHM) energy resolution for 400 μm pixel size at 1 4 σ threshold, which is comparable to the energy resolution caused by energy fluctuation in ionization process of TPC ( 20 keV). The total energy resolution after combining both factors is estimated to be 54 keV for 400 μm pixel size at 1 4 σ threshold. The analysis presented in this paper is helpful to choosing suitable pixel size for future pixelated detectors.