Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC

The technological prototype of the CALICE highly granular silicon-tungsten electromagnetic calorimeter (SiW-ECAL)was tested in a beam at DESY in 2017. The setup comprised seven layers of silicon sensors. Each layer comprised four sensors, with each sensor containing an array of 256 5:5 x 5:5 mm2 sil...

Descripción completa

Detalles Bibliográficos
Autores principales: Irles, A., Kawagoe, K., Miura, Y., Sekiya, I., Suehara, T., Yoshioka, T., Bilokin, S., Bonis, J., Cornebise, P., Gallas, A., Poeschl, R., Richard, F., Thiebault, A., Zerwas, D., Anduze, M., Balagura, V., Boudry, V., Brient, J-C., Edy, E., Fayolle, G., Frotin, M., Gastaldi, F., Guillaumat, R., Lobanov, A., Louzir, M., Magniette, F., Nanni, J., Rubio-Roy, M., Shpak, K., Videau, H., Yu, D., Callier, S., Dulucq, F., de la Taille, Ch., Seguin-Moreau, N., Augustin, J.E., Cornat, R., David, J., Ghislain, P., Lacour, D., Lavergne, L., Parraud, J.M., Chai, J. S., Jeans, D.
Formato: info:eu-repo/semantics/article
Lenguaje:eng
Publicado: Nucl. Instrum. Methods Phys. Res., A 2020
Materias:
Detectors and Experimental Techniques
14: Infrastructure for advanced calorimeters
Acceso en línea:https://dx.doi.org/10.1016/j.nima.2019.162969
http://cds.cern.ch/record/2706476
_version_ 1780964871945322496
author Irles, A.
Kawagoe, K.
Miura, Y.
Sekiya, I.
Suehara, T.
Yoshioka, T.
Bilokin, S.
Bonis, J.
Cornebise, P.
Gallas, A.
Poeschl, R.
Richard, F.
Thiebault, A.
Zerwas, D.
Anduze, M.
Balagura, V.
Boudry, V.
Brient, J-C.
Edy, E.
Fayolle, G.
Frotin, M.
Gastaldi, F.
Guillaumat, R.
Lobanov, A.
Louzir, M.
Magniette, F.
Nanni, J.
Rubio-Roy, M.
Shpak, K.
Videau, H.
Yu, D.
Callier, S.
Dulucq, F.
de la Taille, Ch.
Seguin-Moreau, N.
Augustin, J.E.
Cornat, R.
David, J.
Ghislain, P.
Lacour, D.
Lavergne, L.
Parraud, J.M.
Chai, J. S.
Jeans, D.
author_facet Irles, A.
Kawagoe, K.
Miura, Y.
Sekiya, I.
Suehara, T.
Yoshioka, T.
Bilokin, S.
Bonis, J.
Cornebise, P.
Gallas, A.
Poeschl, R.
Richard, F.
Thiebault, A.
Zerwas, D.
Anduze, M.
Balagura, V.
Boudry, V.
Brient, J-C.
Edy, E.
Fayolle, G.
Frotin, M.
Gastaldi, F.
Guillaumat, R.
Lobanov, A.
Louzir, M.
Magniette, F.
Nanni, J.
Rubio-Roy, M.
Shpak, K.
Videau, H.
Yu, D.
Callier, S.
Dulucq, F.
de la Taille, Ch.
Seguin-Moreau, N.
Augustin, J.E.
Cornat, R.
David, J.
Ghislain, P.
Lacour, D.
Lavergne, L.
Parraud, J.M.
Chai, J. S.
Jeans, D.
author_sort Irles, A.
collection CERN
description The technological prototype of the CALICE highly granular silicon-tungsten electromagnetic calorimeter (SiW-ECAL)was tested in a beam at DESY in 2017. The setup comprised seven layers of silicon sensors. Each layer comprised four sensors, with each sensor containing an array of 256 5:5 x 5:5 mm2 silicon PIN diodes. The four sensors covered a total area of 18 x 18 cm2, and comprised a total of 1024 channels. The readout was split into a trigger line and a charge signal line. Key performance results for signal over noise for the two output lines are presented, together with a study of the uniformity of the detector response. Measurements of the response to electrons for the tungsten loaded version of the detector are also presented.
format info:eu-repo/semantics/article
id cern-2706476
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2020
publisher Nucl. Instrum. Methods Phys. Res., A
record_format invenio
spelling cern-27064762022-08-10T13:25:13Z doi:10.1016/j.nima.2019.162969 http://cds.cern.ch/record/2706476 eng Irles, A. Kawagoe, K. Miura, Y. Sekiya, I. Suehara, T. Yoshioka, T. Bilokin, S. Bonis, J. Cornebise, P. Gallas, A. Poeschl, R. Richard, F. Thiebault, A. Zerwas, D. Anduze, M. Balagura, V. Boudry, V. Brient, J-C. Edy, E. Fayolle, G. Frotin, M. Gastaldi, F. Guillaumat, R. Lobanov, A. Louzir, M. Magniette, F. Nanni, J. Rubio-Roy, M. Shpak, K. Videau, H. Yu, D. Callier, S. Dulucq, F. de la Taille, Ch. Seguin-Moreau, N. Augustin, J.E. Cornat, R. David, J. Ghislain, P. Lacour, D. Lavergne, L. Parraud, J.M. Chai, J. S. Jeans, D. Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC Detectors and Experimental Techniques 14: Infrastructure for advanced calorimeters The technological prototype of the CALICE highly granular silicon-tungsten electromagnetic calorimeter (SiW-ECAL)was tested in a beam at DESY in 2017. The setup comprised seven layers of silicon sensors. Each layer comprised four sensors, with each sensor containing an array of 256 5:5 x 5:5 mm2 silicon PIN diodes. The four sensors covered a total area of 18 x 18 cm2, and comprised a total of 1024 channels. The readout was split into a trigger line and a charge signal line. Key performance results for signal over noise for the two output lines are presented, together with a study of the uniformity of the detector response. Measurements of the response to electrons for the tungsten loaded version of the detector are also presented. info:eu-repo/grantAgreement/EC/FP7/654168 info:eu-repo/semantics/openAccess Education Level info:eu-repo/semantics/article http://cds.cern.ch/record/2706476 Nucl. Instrum. Methods Phys. Res., A Nucl. Instrum. Methods Phys. Res., A, (2020) pp. 162969 2020
spellingShingle Detectors and Experimental Techniques
14: Infrastructure for advanced calorimeters
Irles, A.
Kawagoe, K.
Miura, Y.
Sekiya, I.
Suehara, T.
Yoshioka, T.
Bilokin, S.
Bonis, J.
Cornebise, P.
Gallas, A.
Poeschl, R.
Richard, F.
Thiebault, A.
Zerwas, D.
Anduze, M.
Balagura, V.
Boudry, V.
Brient, J-C.
Edy, E.
Fayolle, G.
Frotin, M.
Gastaldi, F.
Guillaumat, R.
Lobanov, A.
Louzir, M.
Magniette, F.
Nanni, J.
Rubio-Roy, M.
Shpak, K.
Videau, H.
Yu, D.
Callier, S.
Dulucq, F.
de la Taille, Ch.
Seguin-Moreau, N.
Augustin, J.E.
Cornat, R.
David, J.
Ghislain, P.
Lacour, D.
Lavergne, L.
Parraud, J.M.
Chai, J. S.
Jeans, D.
Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC
title Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC
title_full Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC
title_fullStr Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC
title_full_unstemmed Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC
title_short Beam test performance of the highly granular SiW-ECAL technological prototype for the ILC
title_sort beam test performance of the highly granular siw-ecal technological prototype for the ilc
topic Detectors and Experimental Techniques
14: Infrastructure for advanced calorimeters
url https://dx.doi.org/10.1016/j.nima.2019.162969
http://cds.cern.ch/record/2706476
http://cds.cern.ch/record/2706476
work_keys_str_mv AT irlesa beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT kawagoek beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT miuray beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT sekiyai beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT sueharat beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT yoshiokat beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT bilokins beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT bonisj beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT cornebisep beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT gallasa beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT poeschlr beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT richardf beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT thiebaulta beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT zerwasd beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT anduzem beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT balagurav beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT boudryv beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT brientjc beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT edye beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT fayolleg beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT frotinm beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT gastaldif beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT guillaumatr beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT lobanova beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT louzirm beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT magniettef beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT nannij beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT rubioroym beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT shpakk beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT videauh beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT yud beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT calliers beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT dulucqf beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT delataillech beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT seguinmoreaun beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT augustinje beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT cornatr beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT davidj beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT ghislainp beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT lacourd beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT lavergnel beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT parraudjm beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT chaijs beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc
AT jeansd beamtestperformanceofthehighlygranularsiwecaltechnologicalprototypefortheilc

Ejemplares similares