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@TECHREPORT{Collaboration:205975,
author = {Abramowicz, H. and Abusleme, A. and Afanaciev, K. and
Aguilar, J. and Alvarez, E. and Bambade, P. and Bortko, L.
and Bozovic-Jelisavcic, I. and Castro, E. and Chelkov, G.
and Coca, C. and Daniluk, W. and Dragone, A. and Dumitru, L.
and Elsener, K. and Emeliantchik, I. and Firu, E. and
Fischer, J. and Fiutowski, T. and Ghenescu, V. and Gostkin,
M. and Grzelak, G. and Haller, G. and Henschel, H. and
Ignatenko, A. and Idzik, M. and Ito, K. and Kananov, S. and
Kielar, E. and Kollowa, S. and Kotula, J. and Krumstein, Z.
and Krupa, B. and Kulis, S. and Lange, W. and Levy, A. and
Levy, I. and Linssen, L. and Lohmann, W. and Lukic, S. and
Moron, J. and Moszczynski, A. and Nauenberg, U. and Neagu,
A. and Novgorodova, O. and Nuiry, F. -X. and Ohlerich, M.
and Orlandea, M. and Oleinik, G. and Oliwa, K. and
Olshevski, A. and Pandurovic, M. and Pawlik, B. and Preda,
T. and Przyborowski, D. and Sato, Y. and Sadeh, I. and
Sailer, A. and Schumm, B. and Schuwalow, S. and Schwartz, R.
and Smiljanic, I. and Swientek, K. and Takubo, Y. and
Teodorescu, E. and Wierba, W. and Yamamoto, H. and
Zawiejski, L. and Zgura, T. -S. and Zhang, J.},
collaboration = {{FCAL Collaboration} and {FCAL Collaboration}},
title = {{ECFA} {D}etector ${R}\&{D}$ {P}anel, {R}eview {R}eport},
number = {LC-DET-2014-10},
reportid = {PUBDB-2015-00508, LC-DET-2014-10. arXiv:1411.4924},
series = {Review Report},
pages = {1-61},
year = {2014},
note = {OA},
abstract = {Two special calorimeters are foreseen for the
instrumentation of the very forward region of an ILC or CLIC
detector; a luminometer (LumiCal) designed to measure the
rate of low angle Bhabha scattering events with a precision
better than 10$^{-3}$ at the ILC and 10$^{-2}$ at CLIC, and
a low polar-angle calorimeter (BeamCal). The latter will be
hit by a large amount of beamstrahlung remnants. The
intensity and the spatial shape of these depositions will
provide a fast luminosity estimate, as well as determination
of beam parameters. The sensors of this calorimeter must be
radiation-hard. Both devices will improve the e.m.
hermeticity of the detector in the search for new particles.
Finely segmented and very compact electromagnetic
calorimeters will match these requirements. Due to the high
occupancy, fast front-end electronics will be needed. Monte
Carlo studies were performed to investigate the impact of
beam-beam interactions and physics background processes on
the luminosity measurement, and of beamstrahlung on the
performance of BeamCal, as well as to optimise the design of
both calorimeters. Dedicated sensors, front-end and ADC
ASICs have been designed for the ILC and prototypes are
available. Prototypes of sensor planes fully assembled with
readout electronics have been studied in electron beams.},
keywords = {activity report (INSPIRE) / calorimeter: electromagnetic
(INSPIRE) / calorimeter: design (INSPIRE) / scattering:
beam-beam (INSPIRE) / electronics: readout (INSPIRE) /
electronics: design (INSPIRE) / ILC Coll (INSPIRE) /
beamstrahlung (INSPIRE) / CERN CLIC (INSPIRE) / numerical
calculations: Monte Carlo (INSPIRE) / performance (INSPIRE)
/ background (INSPIRE) / luminosity: measurement methods
(INSPIRE) / radiation: damage (INSPIRE)},
cin = {FLC},
cid = {I:(DE-H253)FLC-20120731},
pnm = {513 - Preparation for a future lepton collider (POF2-513) /
AIDA - Advanced European Infrastructures for Detectors at
Accelerators (262025)},
pid = {G:(DE-HGF)POF2-513 / G:(EU-Grant)262025},
experiment = {EXP:(DE-MLZ)NOSPEC-20140101},
typ = {PUB:(DE-HGF)29 / PUB:(DE-HGF)15},
eprint = {1411.4924},
howpublished = {arXiv:1411.4924},
archivePrefix = {arXiv},
SLACcitation = {$\%\%CITATION$ = $arXiv:1411.4924;\%\%$},
url = {https://bib-pubdb1.desy.de/record/205975},
}
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