Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)

Jorgen D'Hondt; Djunes Janssens; Florian Maximilian Brunbauer; Karl Jonathan Flöthner; M. Lisowska; H.  Muller; Eraldo  Oliveri; Giuseppina Orlandini; Werner Riegler; Leszek Ropelewski; H. Schindler; L. Scharenberg; Antonija Utrobicic; Robert J. Veenhof

doi:10.1016/j.nima.2022.167227

Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)

Jorgen D'Hondt, Djunes Janssens, Florian Maximilian Brunbauer, Karl Jonathan Flöthner, M. Lisowska, H. Muller, Eraldo Oliveri, Giuseppina Orlandini, Werner Riegler, Leszek Ropelewski, H. Schindler, L. Scharenberg, Antonija Utrobicic, Robert J. Veenhof

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Abstract

For detectors with resistive elements, the time dependence of the signals is not solely given by the movement of the charges in the drift medium but also by the time-dependent reaction of the resistive materials. In this report, we present a numerical way to capture this contribution by using the extended form of the Ramo–Shockley theorem for conductive media. As an example, the methodology will be applied to the MicroCAT two-dimensional interpolation readout to calculate the center of gravity position reconstruction distortion map of its readout cells.

Original language	English
Article number	167227
Number of pages	4
Journal	Nuclear Instruments and Methods in Physics Research Section A
Volume	1040
Issue number	2022
DOIs	https://doi.org/10.1016/j.nima.2022.167227
Publication status	Published - 1 Oct 2022

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© 2022 Elsevier B.V.

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Copyright 2022 Elsevier B.V., All rights reserved.

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D'Hondt, J., Janssens, D., Brunbauer, F. M., Flöthner, K. J., Lisowska, M., Muller, H., Oliveri, E., Orlandini, G., Riegler, W., Ropelewski, L., Schindler, H., Scharenberg, L., Utrobicic, A., & Veenhof, R. J. (2022). Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022). Nuclear Instruments and Methods in Physics Research Section A, 1040(2022), Article 167227. https://doi.org/10.1016/j.nima.2022.167227

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title = "Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)",

abstract = "For detectors with resistive elements, the time dependence of the signals is not solely given by the movement of the charges in the drift medium but also by the time-dependent reaction of the resistive materials. In this report, we present a numerical way to capture this contribution by using the extended form of the Ramo–Shockley theorem for conductive media. As an example, the methodology will be applied to the MicroCAT two-dimensional interpolation readout to calculate the center of gravity position reconstruction distortion map of its readout cells.",

author = "Jorgen D'Hondt and Djunes Janssens and Brunbauer, {Florian Maximilian} and Fl{\"o}thner, {Karl Jonathan} and M. Lisowska and H. Muller and Eraldo Oliveri and Giuseppina Orlandini and Werner Riegler and Leszek Ropelewski and H. Schindler and L. Scharenberg and Antonija Utrobicic and Veenhof, {Robert J.}",

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D'Hondt, J, Janssens, D, Brunbauer, FM, Flöthner, KJ, Lisowska, M, Muller, H, Oliveri, E, Orlandini, G, Riegler, W, Ropelewski, L, Schindler, H, Scharenberg, L, Utrobicic, A & Veenhof, RJ 2022, 'Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)', Nuclear Instruments and Methods in Physics Research Section A, vol. 1040, no. 2022, 167227. https://doi.org/10.1016/j.nima.2022.167227

TY - JOUR

T1 - Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)

AU - D'Hondt, Jorgen

AU - Janssens, Djunes

AU - Brunbauer, Florian Maximilian

AU - Flöthner, Karl Jonathan

AU - Lisowska, M.

AU - Muller, H.

AU - Oliveri, Eraldo

AU - Orlandini, Giuseppina

AU - Riegler, Werner

AU - Ropelewski, Leszek

AU - Schindler, H.

AU - Scharenberg, L.

AU - Utrobicic, Antonija

AU - Veenhof, Robert J.

PY - 2022/10/1

Y1 - 2022/10/1

N2 - For detectors with resistive elements, the time dependence of the signals is not solely given by the movement of the charges in the drift medium but also by the time-dependent reaction of the resistive materials. In this report, we present a numerical way to capture this contribution by using the extended form of the Ramo–Shockley theorem for conductive media. As an example, the methodology will be applied to the MicroCAT two-dimensional interpolation readout to calculate the center of gravity position reconstruction distortion map of its readout cells.

AB - For detectors with resistive elements, the time dependence of the signals is not solely given by the movement of the charges in the drift medium but also by the time-dependent reaction of the resistive materials. In this report, we present a numerical way to capture this contribution by using the extended form of the Ramo–Shockley theorem for conductive media. As an example, the methodology will be applied to the MicroCAT two-dimensional interpolation readout to calculate the center of gravity position reconstruction distortion map of its readout cells.

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U2 - 10.1016/j.nima.2022.167227

DO - 10.1016/j.nima.2022.167227

M3 - Article

SN - 0168-9002

VL - 1040

JO - Nuclear Instruments and Methods in Physics Research Section A

JF - Nuclear Instruments and Methods in Physics Research Section A

IS - 2022

M1 - 167227

ER -

Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)

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EU674: iSAS: Innovate for Sustainable Accelerating Systems

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Induced signals in particle detectors with resistive elements: Numerically modeling novel structures (VCI 2022)

Abstract

Bibliographical note

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Projects

EU674: iSAS: Innovate for Sustainable Accelerating Systems

FWOIRI13: The CMS experiment at the CERN Large Hadron Collider

FWOAL1078: Probing the Charm-Higgs Yukawa at the LHC.

Cite this