# Mu2e calorimeter readout system

**Authors:** N.Atanov, V.Baranov, L.Baldini, J.Budagov, D.Caiulo, F.Cei,, F.Cervelli, F.Colao, M.Cordelli, G.Corradi, Yu.I.Davydov, F.D'Errico, S.Di, Falco, E.Diociaiuti, S.Donati, R.Donghia, B.Echenard, S.Faetti,, S.Giovannella, S.Giudici, V.Glagolev, F.Grancagnolo, F.Happacher, D.G.Hitlin,, L.Lazzeri, M.Martini, S.Miscetti, T.Miyashita, L.Morescalchi, P.Murat,, D.Nicol\`o, E.Pedreschi, G.Pezzullo, G.Polacco, F.Porter, F.Raffaelli,, M.Ricci, A.Saputi, I.Sarra, M.Sozzi, F.Spinella, G.Tassielli, V.Tereshchenko,, Z.Usubov, I.I.Vasilyev, R.Y.Zhu

arXiv: 1907.04166 · 2019-07-10

## TL;DR

The paper describes the design, components, and qualification tests of the Mu2e calorimeter readout system, which uses SiPMs and digitizers in a challenging radiation and magnetic environment.

## Contribution

It presents the detailed architecture and testing results of the Mu2e calorimeter readout electronics, tailored for high radiation and magnetic field conditions.

## Key findings

- Successful qualification tests under hostile conditions
- Effective digitization at 200 MHz sampling rate
- Robust readout system design for high radiation environments

## Abstract

The Mu2e electromagnetic calorimeter is made of two disks of un-doped parallelepiped CsI crystals readout by SiPM. There are 674 crystals in one disk and each crystal is readout by an array of two SiPM. The readout electronics is composed of two types of modules: 1) the front-end module hosts the shaping amplifier and the high voltage linear regulator; since one front-end module is interfaced to one SiPM, a total of 2696 modules are needed for the entire calorimeter; 2) a waveform digitizer provides a further level of amplification and digitizes the SiPM signal at the sampling frequency of $200\ \text{M}\text{Hz}$ with 12-bits ADC resolution; since one board digitizes the data received from 20 SiPMs, a total of 136 boards are needed. The readout system operational conditions are hostile: ionization dose of $20\ \text{krads}$, neutron flux of $10^{12}\ \mathrm{n}(1\ \text{MeVeq})/\text{cm}^2$, magnetic field of $1\ \text{T}$ and in vacuum level of $10^{-4}\ \text{Torr}$. A description of the readout system and qualification tests is reported.

## Full text

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## References

4 references — full list in the complete paper: https://tomesphere.com/paper/1907.04166/full.md

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Source: https://tomesphere.com/paper/1907.04166