Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider

C. Adloff; K. Francis; J. Repond; J. Smith; D. Trojand; L. Xia; E. Baldolemar; J. Li; S. T. Park; M. Sosebee; A. P. White; J. Yu; Y. Mikami; N. K. Watson; G. Mavromanolakis; M. A. Thomson; D. R. Ward; W. Yan; D. Benchekroun; A. Hoummada; Y. Khoulaki; M. Benyamna; C. Cârloganu; F. Fehr; P. Gay; S. Manen; L. Royer; G. C. Blazey; A. Dyshkant; V. Zutshi; J. Y. Hostachy; L. Morin; U. Cornett; D. David; R. Fabbri; G. Falley; K. Gadow; E. Garutti; P. Göttlicher; C. Günter; S. Karstensen; F. Krivan; A. I. Lucaci-Timoce; S. Lu; B. Lutz; I. Marchesini; N. Meyer; S. Morozov; V. Morgunov; M. Reinecke; F. Sefkow; P. Smirnov; M. Terwort; A. Vargas-Trevino; N. Wattimena; O. Wendt; N. Feege; J. Haller; S. Richter; J. Samson; P. Eckert; A. Kaplan; H. Ch Schultz-Coulon; W. Shen; R. Stamen; A. Tadday; B. Bilki; E. Norbeck; Y. Onel; K. Kawagoe; S. Uozumi; P. D. Dauncey; A. M. Magnan; V. Bartsch; F. Salvatore; I. Laktineh; E. Calvo Alamillo; M. C. Fouz; J. Puerta-Pelayo; A. Frey; C. Kiesling; F. Simon; J. Bonis; B. Bouquet; S. Callier; P. Cornebise; Ph Doublet; F. Dulucq; M. Faucci Giannelli; J. Fleury; H. Li; G. Martin-Chassard; F. Richard; Ch De La Taille; R. Pöschl; L. Raux; N. Seguin-Moreau; F. Wicek; M. Anduze; V. Boudry; J. C. Brient; D. Jeans; P. Mora De Freitas; G. Musat; M. Reinhard; M. Ruan; H. Videau; M. Marcisovsky; P. Sicho; V. Vrba; J. Zalesak; B. Belhorma; H. Ghazlane

doi:10.1016/j.nima.2011.06.056

Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider

C. Adloff
, K. Francis
, J. Repond
, J. Smith
, D. Trojand
, L. Xia
, E. Baldolemar
, J. Li
, S. T. Park
, M. Sosebee
, A. P. White
, J. Yu
, Y. Mikami
, N. K. Watson
, G. Mavromanolakis
, M. A. Thomson
, D. R. Ward
, W. Yan
, D. Benchekroun
, A. Hoummada

Y. Khoulaki, M. Benyamna, C. Cârloganu, F. Fehr, P. Gay, S. Manen, L. Royer, G. C. Blazey, A. Dyshkant, V. Zutshi, J. Y. Hostachy, L. Morin, U. Cornett, D. David, R. Fabbri, G. Falley, K. Gadow, E. Garutti, P. Göttlicher, C. Günter, S. Karstensen, F. Krivan, A. I. Lucaci-Timoce, S. Lu, B. Lutz, I. Marchesini, N. Meyer, S. Morozov, V. Morgunov, M. Reinecke, F. Sefkow, P. Smirnov, M. Terwort, A. Vargas-Trevino, N. Wattimena, O. Wendt, N. Feege, J. Haller, S. Richter, J. Samson, P. Eckert, A. Kaplan, H. Ch Schultz-Coulon, W. Shen, R. Stamen, A. Tadday, B. Bilki, E. Norbeck, Y. Onel, K. Kawagoe, S. Uozumi, P. D. Dauncey, A. M. Magnan, V. Bartsch, F. Salvatore, I. Laktineh, E. Calvo Alamillo, M. C. Fouz, J. Puerta-Pelayo, A. Frey, C. Kiesling, F. Simon, J. Bonis, B. Bouquet, S. Callier, P. Cornebise, Ph Doublet, F. Dulucq, M. Faucci Giannelli, J. Fleury, H. Li, G. Martin-Chassard, F. Richard, Ch De La Taille, R. Pöschl, L. Raux, N. Seguin-Moreau, F. Wicek, M. Anduze, V. Boudry, J. C. Brient, D. Jeans, P. Mora De Freitas, G. Musat, M. Reinhard, M. Ruan, H. Videau, M. Marcisovsky, P. Sicho, V. Vrba, J. Zalesak, B. Belhorma, H. Ghazlane

Université Savoie Mont Blanc
Argonne National Laboratory
University of Texas at Arlington
McGill University
University of Birmingham
University of Cambridge
European Organization for Nuclear Research
University of Science and Technology of China
Université Hassan II Aïn Chock - Casablanca et LASAARE
Clermont-Auvergne University
Northern Illinois University
Laboratoire de Physique Subatomique et de Cosmologie de Grenoble
c/o DESY
ITEP
Universität Hamburg
University of Heidelberg
University of Iowa
Kobe University
Kyungpook National University
Imperial College London
University College London
University of Sussex
Royal Holloway University of London
IGFL, Université de Lyon, Université Lyon 1
Centro de Investigaciones Energéticas Medioambientales y Tecnológicas (CIEMAT)
Max-Planck-Institut für Physik
Georg-August-Universität Göttingen
Université Paris-Sud
Institute of Physics of the Czech Academy of Sciences
Centre National de l'Energie des Sciences Techniques Nucleaires

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Application Specific Integrated Circuits, ASICs, similar to those envisaged for the readout electronics of the central calorimeters of detectors for a future lepton collider have been exposed to high-energy electromagnetic showers. A salient feature of these calorimeters is that the readout electronics will be embedded into the calorimeter layers. In this article it is shown that interactions of shower particles in the volume of the readout electronics do not alter the noise pattern of the ASICs. No signal at or above the MIP level has been observed during the exposure. The upper limit at the 95% confidence level on the frequency of fake signals is smaller than 1×10^-5 for a noise threshold of about 60% of a MIP. For ASICs with similar design to those which were tested, it can thus be largely excluded that the embedding of the electronics into the calorimeter layers compromises the performance of the calorimeters.

langue originale	Anglais
Pages (de - à)	97-109
Nombre de pages	13
journal	Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume	654
Numéro de publication	1
Les DOIs	https://doi.org/10.1016/j.nima.2011.06.056
état	Publié - 21 oct. 2011

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10.1016/j.nima.2011.06.056

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Adloff, C., Francis, K., Repond, J., Smith, J., Trojand, D., Xia, L., Baldolemar, E., Li, J., Park, S. T., Sosebee, M., White, A. P., Yu, J., Mikami, Y., Watson, N. K., Mavromanolakis, G., Thomson, M. A., Ward, D. R., Yan, W., Benchekroun, D., ... Ghazlane, H. (2011). Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 654(1), 97-109. https://doi.org/10.1016/j.nima.2011.06.056

@article{5c82faf2031d4b499e72da5d79b7e17d,

title = "Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider",

abstract = "Application Specific Integrated Circuits, ASICs, similar to those envisaged for the readout electronics of the central calorimeters of detectors for a future lepton collider have been exposed to high-energy electromagnetic showers. A salient feature of these calorimeters is that the readout electronics will be embedded into the calorimeter layers. In this article it is shown that interactions of shower particles in the volume of the readout electronics do not alter the noise pattern of the ASICs. No signal at or above the MIP level has been observed during the exposure. The upper limit at the 95\% confidence level on the frequency of fake signals is smaller than 1×10-5 for a noise threshold of about 60\% of a MIP. For ASICs with similar design to those which were tested, it can thus be largely excluded that the embedding of the electronics into the calorimeter layers compromises the performance of the calorimeters.",

keywords = "Electromagnetic calorimeter, Embedded electronics, Fake hits, Lepton collider",

author = "C. Adloff and K. Francis and J. Repond and J. Smith and D. Trojand and L. Xia and E. Baldolemar and J. Li and Park, \{S. T.\} and M. Sosebee and White, \{A. P.\} and J. Yu and Y. Mikami and Watson, \{N. K.\} and G. Mavromanolakis and Thomson, \{M. A.\} and Ward, \{D. R.\} and W. Yan and D. Benchekroun and A. Hoummada and Y. Khoulaki and M. Benyamna and C. C{\^a}rloganu and F. Fehr and P. Gay and S. Manen and L. Royer and Blazey, \{G. C.\} and A. Dyshkant and V. Zutshi and Hostachy, \{J. Y.\} and L. Morin and U. Cornett and D. David and R. Fabbri and G. Falley and K. Gadow and E. Garutti and P. G{\"o}ttlicher and C. G{\"u}nter and S. Karstensen and F. Krivan and Lucaci-Timoce, \{A. I.\} and S. Lu and B. Lutz and I. Marchesini and N. Meyer and S. Morozov and V. Morgunov and M. Reinecke and F. Sefkow and P. Smirnov and M. Terwort and A. Vargas-Trevino and N. Wattimena and O. Wendt and N. Feege and J. Haller and S. Richter and J. Samson and P. Eckert and A. Kaplan and Schultz-Coulon, \{H. Ch\} and W. Shen and R. Stamen and A. Tadday and B. Bilki and E. Norbeck and Y. Onel and K. Kawagoe and S. Uozumi and Dauncey, \{P. D.\} and Magnan, \{A. M.\} and V. Bartsch and F. Salvatore and I. Laktineh and \{Calvo Alamillo\}, E. and Fouz, \{M. C.\} and J. Puerta-Pelayo and A. Frey and C. Kiesling and F. Simon and J. Bonis and B. Bouquet and S. Callier and P. Cornebise and Ph Doublet and F. Dulucq and \{Faucci Giannelli\}, M. and J. Fleury and H. Li and G. Martin-Chassard and F. Richard and \{De La Taille\}, Ch and R. P{\"o}schl and L. Raux and N. Seguin-Moreau and F. Wicek and M. Anduze and V. Boudry and Brient, \{J. C.\} and D. Jeans and \{Mora De Freitas\}, P. and G. Musat and M. Reinhard and M. Ruan and H. Videau and M. Marcisovsky and P. Sicho and V. Vrba and J. Zalesak and B. Belhorma and H. Ghazlane",

year = "2011",

month = oct,

day = "21",

doi = "10.1016/j.nima.2011.06.056",

language = "English",

volume = "654",

pages = "97--109",

journal = "Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment",

issn = "0168-9002",

number = "1",

}

Adloff, C, Francis, K, Repond, J, Smith, J, Trojand, D, Xia, L, Baldolemar, E, Li, J, Park, ST, Sosebee, M, White, AP, Yu, J, Mikami, Y, Watson, NK, Mavromanolakis, G, Thomson, MA, Ward, DR, Yan, W, Benchekroun, D, Hoummada, A, Khoulaki, Y, Benyamna, M, Cârloganu, C, Fehr, F, Gay, P, Manen, S, Royer, L, Blazey, GC, Dyshkant, A, Zutshi, V, Hostachy, JY, Morin, L, Cornett, U, David, D, Fabbri, R, Falley, G, Gadow, K, Garutti, E, Göttlicher, P, Günter, C, Karstensen, S, Krivan, F, Lucaci-Timoce, AI, Lu, S, Lutz, B, Marchesini, I, Meyer, N, Morozov, S, Morgunov, V, Reinecke, M, Sefkow, F, Smirnov, P, Terwort, M, Vargas-Trevino, A, Wattimena, N, Wendt, O, Feege, N, Haller, J, Richter, S, Samson, J, Eckert, P, Kaplan, A, Schultz-Coulon, HC, Shen, W, Stamen, R, Tadday, A, Bilki, B, Norbeck, E, Onel, Y, Kawagoe, K, Uozumi, S, Dauncey, PD, Magnan, AM, Bartsch, V, Salvatore, F, Laktineh, I, Calvo Alamillo, E, Fouz, MC, Puerta-Pelayo, J, Frey, A, Kiesling, C, Simon, F, Bonis, J, Bouquet, B, Callier, S, Cornebise, P, Doublet, P, Dulucq, F, Faucci Giannelli, M, Fleury, J, Li, H, Martin-Chassard, G, Richard, F, De La Taille, C, Pöschl, R, Raux, L, Seguin-Moreau, N, Wicek, F, Anduze, M, Boudry, V, Brient, JC, Jeans, D, Mora De Freitas, P, Musat, G, Reinhard, M, Ruan, M, Videau, H, Marcisovsky, M, Sicho, P, Vrba, V, Zalesak, J, Belhorma, B & Ghazlane, H 2011, 'Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider', Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, VOL. 654, Numéro 1, p. 97-109. https://doi.org/10.1016/j.nima.2011.06.056

Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider. / Adloff, C.; Francis, K.; Repond, J. et al.
Dans: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol 654, Numéro 1, 21.10.2011, p. 97-109.

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

TY - JOUR

T1 - Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider

AU - Adloff, C.

AU - Francis, K.

AU - Repond, J.

AU - Smith, J.

AU - Trojand, D.

AU - Xia, L.

AU - Baldolemar, E.

AU - Li, J.

AU - Park, S. T.

AU - Sosebee, M.

AU - White, A. P.

AU - Yu, J.

AU - Mikami, Y.

AU - Watson, N. K.

AU - Mavromanolakis, G.

AU - Thomson, M. A.

AU - Ward, D. R.

AU - Yan, W.

AU - Benchekroun, D.

AU - Hoummada, A.

AU - Khoulaki, Y.

AU - Benyamna, M.

AU - Cârloganu, C.

AU - Fehr, F.

AU - Gay, P.

AU - Manen, S.

AU - Royer, L.

AU - Blazey, G. C.

AU - Dyshkant, A.

AU - Zutshi, V.

AU - Hostachy, J. Y.

AU - Morin, L.

AU - Cornett, U.

AU - David, D.

AU - Fabbri, R.

AU - Falley, G.

AU - Gadow, K.

AU - Garutti, E.

AU - Göttlicher, P.

AU - Günter, C.

AU - Karstensen, S.

AU - Krivan, F.

AU - Lucaci-Timoce, A. I.

AU - Lu, S.

AU - Lutz, B.

AU - Marchesini, I.

AU - Meyer, N.

AU - Morozov, S.

AU - Morgunov, V.

AU - Reinecke, M.

AU - Sefkow, F.

AU - Smirnov, P.

AU - Terwort, M.

AU - Vargas-Trevino, A.

AU - Wattimena, N.

AU - Wendt, O.

AU - Feege, N.

AU - Haller, J.

AU - Richter, S.

AU - Samson, J.

AU - Eckert, P.

AU - Kaplan, A.

AU - Schultz-Coulon, H. Ch

AU - Shen, W.

AU - Stamen, R.

AU - Tadday, A.

AU - Bilki, B.

AU - Norbeck, E.

AU - Onel, Y.

AU - Kawagoe, K.

AU - Uozumi, S.

AU - Dauncey, P. D.

AU - Magnan, A. M.

AU - Bartsch, V.

AU - Salvatore, F.

AU - Laktineh, I.

AU - Calvo Alamillo, E.

AU - Fouz, M. C.

AU - Puerta-Pelayo, J.

AU - Frey, A.

AU - Kiesling, C.

AU - Simon, F.

AU - Bonis, J.

AU - Bouquet, B.

AU - Callier, S.

AU - Cornebise, P.

AU - Doublet, Ph

AU - Dulucq, F.

AU - Faucci Giannelli, M.

AU - Fleury, J.

AU - Li, H.

AU - Martin-Chassard, G.

AU - Richard, F.

AU - De La Taille, Ch

AU - Pöschl, R.

AU - Raux, L.

AU - Seguin-Moreau, N.

AU - Wicek, F.

AU - Anduze, M.

AU - Boudry, V.

AU - Brient, J. C.

AU - Jeans, D.

AU - Mora De Freitas, P.

AU - Musat, G.

AU - Reinhard, M.

AU - Ruan, M.

AU - Videau, H.

AU - Marcisovsky, M.

AU - Sicho, P.

AU - Vrba, V.

AU - Zalesak, J.

AU - Belhorma, B.

AU - Ghazlane, H.

PY - 2011/10/21

Y1 - 2011/10/21

N2 - Application Specific Integrated Circuits, ASICs, similar to those envisaged for the readout electronics of the central calorimeters of detectors for a future lepton collider have been exposed to high-energy electromagnetic showers. A salient feature of these calorimeters is that the readout electronics will be embedded into the calorimeter layers. In this article it is shown that interactions of shower particles in the volume of the readout electronics do not alter the noise pattern of the ASICs. No signal at or above the MIP level has been observed during the exposure. The upper limit at the 95% confidence level on the frequency of fake signals is smaller than 1×10-5 for a noise threshold of about 60% of a MIP. For ASICs with similar design to those which were tested, it can thus be largely excluded that the embedding of the electronics into the calorimeter layers compromises the performance of the calorimeters.

AB - Application Specific Integrated Circuits, ASICs, similar to those envisaged for the readout electronics of the central calorimeters of detectors for a future lepton collider have been exposed to high-energy electromagnetic showers. A salient feature of these calorimeters is that the readout electronics will be embedded into the calorimeter layers. In this article it is shown that interactions of shower particles in the volume of the readout electronics do not alter the noise pattern of the ASICs. No signal at or above the MIP level has been observed during the exposure. The upper limit at the 95% confidence level on the frequency of fake signals is smaller than 1×10-5 for a noise threshold of about 60% of a MIP. For ASICs with similar design to those which were tested, it can thus be largely excluded that the embedding of the electronics into the calorimeter layers compromises the performance of the calorimeters.

KW - Electromagnetic calorimeter

KW - Embedded electronics

KW - Fake hits

KW - Lepton collider

UR - https://www.scopus.com/pages/publications/80052907348

U2 - 10.1016/j.nima.2011.06.056

DO - 10.1016/j.nima.2011.06.056

M3 - Article

AN - SCOPUS:80052907348

SN - 0168-9002

VL - 654

SP - 97

EP - 109

JO - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

JF - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

IS - 1

ER -

Adloff C, Francis K, Repond J, Smith J, Trojand D, Xia L et al. Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2011 oct. 21;654(1):97-109. doi: 10.1016/j.nima.2011.06.056

Effects of high-energy particle showers on the embedded front-end electronics of an electromagnetic calorimeter for a future lepton collider

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