Quad-module characterization with the MALTA monolithic pixel chip

F. Dachs; A. M. Zoubir; A. Sharma; C. Solans Sanchez; C. M. Buttar; D. Bortoletto; D. Dobrijevic; D. V. Berlea; E. Charbon; F. Piro; G. Gustavino; H. Sandaker; H. Pernegger; I. Asensi Tortajada; J. Weick; L. Gonella; L. Flores Sanz De Acedo; M. Vázquez Núñez; M. Gazi; M. LeBlanc; M. van Rijnbach; P. Riedler; P. Allport; S. Worm; T. Suligoj; V. Dao; V. Gonzalez Millan; W. Snoeys

doi:10.1016/j.nima.2024.169306

Quad-module characterization with the MALTA monolithic pixel chip

F. Dachs
, A. M. Zoubir
, A. Sharma
, C. Solans Sanchez
, C. M. Buttar
, D. Bortoletto
, D. Dobrijevic
, D. V. Berlea
, E. Charbon
, F. Piro
, G. Gustavino
, H. Sandaker
, H. Pernegger
, I. Asensi Tortajada
, J. Weick
, L. Gonella
, L. Flores Sanz De Acedo
, M. Vázquez Núñez
, M. Gazi
, M. LeBlanc

M. van Rijnbach, P. Riedler, P. Allport, S. Worm, T. Suligoj, V. Dao, V. Gonzalez Millan, W. Snoeys

Physics and Astronomy

Stony Brook University

Research output: Contribution to journal › Article › peer-review

Abstract

The MALTA silicon pixel detector combines a depleted monolithic active pixel sensor (DMAPS) with a fully asynchronous front-end and readout. It features a high granularity pixel matrix with a 36.4 μm symmetric pixel pitch, low power consumption of <1 μW/pixel and low material budget with detector thicknesses as little as 50 μm. It achieves a radiation hardness to 100MRad TID and more than 1 × 10E15 1 MeV n_eq/cm² with a time resolution of <2 ns (Pernegger et al., 2023). In order to cover large sensitive areas efficiently with a minimum of power and data connections the development of modules, comprising of up to 4 MALTA detectors, is studied. This contribution presents the beam test performance of parallel and serial powered MALTA 4-chip modules in an effort to characterize the sensor's chip-to-chip data and power transmission and prepare the production of a first prototype of an ultra-light weight 4-chip module on a flexible circuit with next generation MALTA2 sensors.

Original language	English
Article number	169306
Journal	Nuclear Inst. and Methods in Physics Research, A
Volume	1064
DOIs	https://doi.org/10.1016/j.nima.2024.169306
State	Published - Jul 2024

Keywords

Large-area
MALTA
Module
Monolithic
Radiation hard
Silicon pixel detector

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10.1016/j.nima.2024.169306

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Dachs, F., Zoubir, A. M., Sharma, A., Sanchez, C. S., Buttar, C. M., Bortoletto, D., Dobrijevic, D., Berlea, D. V., Charbon, E., Piro, F., Gustavino, G., Sandaker, H., Pernegger, H., Tortajada, I. A., Weick, J., Gonella, L., Flores Sanz De Acedo, L., Núñez, M. V., Gazi, M., ... Snoeys, W. (2024). Quad-module characterization with the MALTA monolithic pixel chip. Nuclear Inst. and Methods in Physics Research, A, 1064, Article 169306. https://doi.org/10.1016/j.nima.2024.169306

@article{585717287f43492db28cc38e854807ca,

title = "Quad-module characterization with the MALTA monolithic pixel chip",

abstract = "The MALTA silicon pixel detector combines a depleted monolithic active pixel sensor (DMAPS) with a fully asynchronous front-end and readout. It features a high granularity pixel matrix with a 36.4 μm symmetric pixel pitch, low power consumption of <1 μW/pixel and low material budget with detector thicknesses as little as 50 μm. It achieves a radiation hardness to 100MRad TID and more than 1 × 10E15 1 MeV neq/cm2 with a time resolution of <2 ns (Pernegger et al., 2023). In order to cover large sensitive areas efficiently with a minimum of power and data connections the development of modules, comprising of up to 4 MALTA detectors, is studied. This contribution presents the beam test performance of parallel and serial powered MALTA 4-chip modules in an effort to characterize the sensor's chip-to-chip data and power transmission and prepare the production of a first prototype of an ultra-light weight 4-chip module on a flexible circuit with next generation MALTA2 sensors.",

keywords = "Large-area, MALTA, Module, Monolithic, Radiation hard, Silicon pixel detector",

author = "F. Dachs and Zoubir, \{A. M.\} and A. Sharma and Sanchez, \{C. Solans\} and Buttar, \{C. M.\} and D. Bortoletto and D. Dobrijevic and Berlea, \{D. V.\} and E. Charbon and F. Piro and G. Gustavino and H. Sandaker and H. Pernegger and Tortajada, \{I. Asensi\} and J. Weick and L. Gonella and \{Flores Sanz De Acedo\}, L. and N{\'u}{\~n}ez, \{M. V{\'a}zquez\} and M. Gazi and M. LeBlanc and \{van Rijnbach\}, M. and P. Riedler and P. Allport and S. Worm and T. Suligoj and V. Dao and Millan, \{V. Gonzalez\} and W. Snoeys",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier B.V.",

year = "2024",

month = jul,

doi = "10.1016/j.nima.2024.169306",

language = "English",

volume = "1064",

journal = "Nuclear Inst. and Methods in Physics Research, A",

issn = "0168-9002",

}

Dachs, F, Zoubir, AM, Sharma, A, Sanchez, CS, Buttar, CM, Bortoletto, D, Dobrijevic, D, Berlea, DV, Charbon, E, Piro, F, Gustavino, G, Sandaker, H, Pernegger, H, Tortajada, IA, Weick, J, Gonella, L, Flores Sanz De Acedo, L, Núñez, MV, Gazi, M, LeBlanc, M, van Rijnbach, M, Riedler, P, Allport, P, Worm, S, Suligoj, T, Dao, V, Millan, VG & Snoeys, W 2024, 'Quad-module characterization with the MALTA monolithic pixel chip', Nuclear Inst. and Methods in Physics Research, A, vol. 1064, 169306. https://doi.org/10.1016/j.nima.2024.169306

TY - JOUR

T1 - Quad-module characterization with the MALTA monolithic pixel chip

AU - Dachs, F.

AU - Zoubir, A. M.

AU - Sharma, A.

AU - Sanchez, C. Solans

AU - Buttar, C. M.

AU - Bortoletto, D.

AU - Dobrijevic, D.

AU - Berlea, D. V.

AU - Charbon, E.

AU - Piro, F.

AU - Gustavino, G.

AU - Sandaker, H.

AU - Pernegger, H.

AU - Tortajada, I. Asensi

AU - Weick, J.

AU - Gonella, L.

AU - Flores Sanz De Acedo, L.

AU - Núñez, M. Vázquez

AU - Gazi, M.

AU - LeBlanc, M.

AU - van Rijnbach, M.

AU - Riedler, P.

AU - Allport, P.

AU - Worm, S.

AU - Suligoj, T.

AU - Dao, V.

AU - Millan, V. Gonzalez

AU - Snoeys, W.

PY - 2024/7

Y1 - 2024/7

N2 - The MALTA silicon pixel detector combines a depleted monolithic active pixel sensor (DMAPS) with a fully asynchronous front-end and readout. It features a high granularity pixel matrix with a 36.4 μm symmetric pixel pitch, low power consumption of <1 μW/pixel and low material budget with detector thicknesses as little as 50 μm. It achieves a radiation hardness to 100MRad TID and more than 1 × 10E15 1 MeV neq/cm2 with a time resolution of <2 ns (Pernegger et al., 2023). In order to cover large sensitive areas efficiently with a minimum of power and data connections the development of modules, comprising of up to 4 MALTA detectors, is studied. This contribution presents the beam test performance of parallel and serial powered MALTA 4-chip modules in an effort to characterize the sensor's chip-to-chip data and power transmission and prepare the production of a first prototype of an ultra-light weight 4-chip module on a flexible circuit with next generation MALTA2 sensors.

AB - The MALTA silicon pixel detector combines a depleted monolithic active pixel sensor (DMAPS) with a fully asynchronous front-end and readout. It features a high granularity pixel matrix with a 36.4 μm symmetric pixel pitch, low power consumption of <1 μW/pixel and low material budget with detector thicknesses as little as 50 μm. It achieves a radiation hardness to 100MRad TID and more than 1 × 10E15 1 MeV neq/cm2 with a time resolution of <2 ns (Pernegger et al., 2023). In order to cover large sensitive areas efficiently with a minimum of power and data connections the development of modules, comprising of up to 4 MALTA detectors, is studied. This contribution presents the beam test performance of parallel and serial powered MALTA 4-chip modules in an effort to characterize the sensor's chip-to-chip data and power transmission and prepare the production of a first prototype of an ultra-light weight 4-chip module on a flexible circuit with next generation MALTA2 sensors.

KW - Large-area

KW - MALTA

KW - Module

KW - Monolithic

KW - Radiation hard

KW - Silicon pixel detector

UR - https://www.scopus.com/pages/publications/85192886950

U2 - 10.1016/j.nima.2024.169306

DO - 10.1016/j.nima.2024.169306

M3 - Article

SN - 0168-9002

VL - 1064

JO - Nuclear Inst. and Methods in Physics Research, A

JF - Nuclear Inst. and Methods in Physics Research, A

M1 - 169306

ER -

Quad-module characterization with the MALTA monolithic pixel chip

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Keywords

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