Results from the gigatracker prototypes: Two pixel front-end ASICs with sub-ns time resolution for the NA62 experiment

The NA62 experiment aims to measure the ultra-rare decay of a kaon into a pion and neutrinoantineutrino pair at the Super-Proton-Synchrotron (SPS) accelerator at CERN. This measurement could provide a decisive test of the Standard Model. The upstream detector, namely the Giga-tracker (GTK), will perform the momentum and angular measurements of the incoming beam with sub-ns time resolution in order to provide a tight time coincidence between the kaon and the pion tracks [1, 2]. In order to achieve the required time resolution of 100 ps (rms) it is necessary to compensate for the discriminator time-walk [3]. For this purpose two complementary architectures have been explored. The first one is based on a simple pixel cell, featuring a front-end amplifier followed by a leading-edge discriminator and a transmission line driver and by high precision Time-to-Digital-Converters (TDC) in the end of column shared by a group of pixels [4, 5]. The second option aims to maximize the on-pixel signal processing using a Constant-Fraction-Discriminator (CFD) followed by a TDC on each cell [6, 7, 8]. The two architectures have been designed and produced as small-size prototypes in 130 nm CMOS technology and the ASICs were bump-bonded to 200 μm thick silicon sensors. The recent experimental results obtained from the prototype assemblies during laboratory and beam tests are described in this paper.