A mixed-signal processor for X-ray spectrometry and tracking in the GAPS experiment

Valerio Re, Luca Ghislotti, Paolo Lazzaroni, Massimo Manghisoni, Elisa Riceputi, Lodovico Ratti, Mirko Boezio, Gianluigi Zampa, Lorenzo Fabris

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

This paper reports the design and experimental results from the characterization of an integrated circuit developed for the readout of the X-ray spectrometer and tracking system of the General AntiParticle Spectrometer (GAPS) balloon mission. GAPS will search for an indirect signature of dark matter through the detection of low-energy (<0.25 GeV/n) cosmic-ray antiprotons, antideuterons and antihelium nuclei. The ASIC, named SLIDER32 (32 channels Si-LI DEtector Readout ASIC), was fabricated in a 180 nm CMOS technology and is comprised of 32 analog readout channels, an 11-bit SAR ADC and a digital back-end section which is responsible for defining channel settings and for sending digital information to the data acquisition system. The core of the ASIC is a low-noise analog channel implementing a dynamic signal compression which makes the chip suitable for resolving both X-rays in the range of 20 to 100 keV and charged particles with energy deposition of up to 100 MeV. It features an energy resolution of 4 keV FWHM in the 20–100 keV range with a 40 pF detector capacitance, to clearly distinguish X-rays from antiprotonic or antideuteronic exotic atoms. The readout electronics of the ASIC will run at a temperature of about –40 °C, complying with a detector leakage current of the order of 5–10 nA per strip.

Funding

This work is supported by Istituto Nazionale di Fisica Nucleare (INFN) and by the Italian Space Agency through the ASI-INFN agreement no. 2018-28-HH.0 : “Partecipazione italiana al GAPS - General AntiParticle Spectrometer”.

FundersFunder number
Agenzia Spaziale Italiana
Instituto Nazionale di Fisica Nucleare

    Keywords

    • CMOS
    • Front-end
    • Noise
    • Readout electronics

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