Forward instrumentation for ILC detectors

H Abramowicz; A Abusleme; K Afanaciev; J Aguilar; P Ambalathankandy; P Bambade; M Bergholz; I Bozovic-Jelisavcic; E Castro; G Chelkov; C Coca; W Daniluk; A Dragone; L Dumitru; K Elsener; I Emeliantchik; T Fiutowski; M Gostkin; C Grah; G Grzelak; G Haller; H Henschel; A Ignatenko; M Idzik; K Ito; T Jovin; E Kielar; J Kotula; Z Krumstein; S Kulis; W Lange; W Lohmann; A Levy; A Moszczynski; U Nauenberg; O Novgorodova; M Ohlerich; M Orlandea; G Oleinik; K Oliwa; A Olshevski; M Pandurovic; B Pawlik; D Przyborowski; Y Sato; I Sadeh; A Sailer; R Schmidt; B Schumm; S Schuwalow; I Smiljanic; K Swientek; Y Takubo; E Teodorescu; W Wierba; H Yamamoto; L Zawiejski; J Zhang

doi:10.1088/1748-0221/5/12/P12002

Journal of Instrumentation

Forward instrumentation for ILC detectors

H Abramowicz¹, A Abusleme², K Afanaciev³, J Aguilar⁴, P Ambalathankandy⁴, P Bambade⁵, M Bergholz⁶, I Bozovic-Jelisavcic⁷, E Castro⁶, G Chelkov⁸, C Coca⁹, W Daniluk¹⁰, A Dragone¹¹, L Dumitru⁹, K Elsener¹², I Emeliantchik³, T Fiutowski⁴, M Gostkin⁸, C Grah⁶, G Grzelak¹⁰, G Haller¹¹, H Henschel⁶, A Ignatenko³, M Idzik⁴, K Ito¹³, T Jovin⁷, E Kielar¹⁰, J Kotula¹⁰, Z Krumstein⁸, S Kulis⁴, W Lange⁶, W Lohmann⁶, A Levy¹, A Moszczynski¹⁰, U Nauenberg¹⁴, O Novgorodova⁶, M Ohlerich⁶, M Orlandea⁹, G Oleinik¹⁴, K Oliwa¹⁰, A Olshevski⁸, M Pandurovic⁷, B Pawlik¹⁰, D Przyborowski⁴, Y Sato¹³, I Sadeh¹, A Sailer¹², R Schmidt⁶, B Schumm¹⁵, S Schuwalow⁶, I Smiljanic⁷, K Swientek⁴, Y Takubo¹³, E Teodorescu⁹, W Wierba¹⁰, H Yamamoto¹³, L Zawiejski¹⁰ and J Zhang¹⁶

Published 7 December 2010 • Published under licence by IOP Publishing Ltd
Journal of Instrumentation, Volume 5, December 2010 Citation H Abramowicz et al 2010 JINST 5 P12002 DOI 10.1088/1748-0221/5/12/P12002

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Author affiliations

¹ Tel Aviv University, Tel Aviv, Israel

² Stanford University, Stanford, USA

³ NCPHEP, Minsk, Belarus

⁴ AGH University of Science & Technology, Cracow, Poland

⁵ Laboratoire de l Accelerateur Lineaire, Orsay, France

⁶ DESY, Zeuthen, Germany

⁷ Vinca Institute of Nuclear Sciences, University of Belgrade, Serbia

⁸ JINR, Dubna, Russia

⁹ IFIN-HH, Bucharest, Romania

¹⁰ INP PAN, Cracow, Poland

¹¹ SLAC, Menlo Park, USA

¹² CERN, Geneva, Switzerland

¹³ Tohoku University, Sendai, Japan

¹⁴ University of Colorado, Boulder, USA

¹⁵ UC California, Santa Cruz, USA

¹⁶ ANL, Argonne, USA

Dates

Received 15 September 2010
Accepted 12 November 2010
Published 7 December 2010

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Abstract

Two special calorimeters are foreseen for the instrumentation of the very forward region of the ILC detector, a luminometer designed to measure the rate of low angle Bhabha scattering events with a precision better than 10⁻³ and a low polar angle calorimeter, adjacent to the beam-pipe. The latter will be hit by a large amount of beamstrahlung remnants. The amount and shape of these depositions will allow a fast luminosity estimate and the determination of beam parameters. The sensors of this calorimeter must be radiation hard. Both devices will improve the hermeticity of the detector in the search for new particles. Finely segmented and very compact calorimeters will match the requirements. Due to the high occupancy fast front-end electronics is needed. The design of the calorimeters developed and optimised with Monte Carlo simulations is presented. Sensors and readout electronics ASICs have been designed and prototypes are available. Results on the performance of these major components are summarised.

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Forward instrumentation for ILC detectors

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