Investigations of a THGEM-based imaging detector

TL;DR

This paper reports on a THGEM-based imaging detector prototype capable of large-area, high-rate imaging with sub-millimeter resolution, suitable for applications requiring sensitive and homogeneous detection.

Contribution

The study introduces a novel THGEM-based imaging detector with a resistive anode and delay-line readout, demonstrating promising localization resolution and uniformity.

Findings

Localization resolution of about 0.7 mm (FWHM) with soft x-rays

Good linearity and homogeneity achieved in detector performance

Potential for large-area, high-rate imaging applications

Abstract

We present the results of our recent studies on a Thick Gas Electron Multiplier (THGEM)-based imaging detector prototype. It consists of two 100x100 mm^2 THGEM electrodes in cascade, coupled to a resistive anode. The event location is recorded with a 2D double-sided readout electrode equipped with discrete delay-lines and dedicated electronics. The THGEM electrodes, produced by standard printed-circuit board and mechanical drilling techniques, a 0.4 mm thick with 0.5 mm diameter holes spaced by 1 mm. Localization resolutions of about 0.7 mm (FWHM) were measured with soft x-rays, in a detector operated with atmospheric-pressure Ar/CH4; good linearity and homogeneity were achieved. We describe the imaging-detector layout, the resistive-anode 2D readout system and the imaging properties. The THGEM has numerous potential applications that require large-area imaging detectors, with high-rate capability, single-electron sensitivity and moderate (sub-mm) localization resolution.