Development of Hybrid Resistive Plate Chambers

TL;DR

This paper presents the development and testing of new hybrid Resistive Plate Chamber designs with coated anode plates to improve performance under high particle fluxes, addressing efficiency and gas limitations.

Contribution

It introduces novel RPC designs with specialized anode coatings, building on previous 1-glass RPC advancements, and reports initial performance results.

Findings

Successful construction of various RPC prototypes

Laboratory and beam test performance data obtained

Potential improvements in efficiency and flux handling

Abstract

Resistive Plate Chambers (RPCs) are essential active media of large-scale experiments as part of the muon systems and (semi-)digital hadron calorimeters. Among the several outstanding issues associated with the RPCs, the loss of efficiency for the detection of particles when subjected to high particle fluxes, and the limitations associated with the common RPC gases can be listed. In order to address the latter issue, we developed novel RPC designs with special anode plates coated with high secondary electron emission yield materials such as Al$_2$O$_3$ and TiO$_2$. The proof of principle was obtained for various designs and is in progress for the rest. The idea was initiated following the achievements on the development of the novel 1-glass RPCs. Here we report on the construction of various different RPC designs, and their performance measurements in laboratory tests and with particle beams; and discuss the future test plans.