publication . Article . Preprint . 2013

Forward tracking at the next e+e- collider part II: experimental challenges and detector design

Aplin, Steve; Boronat, Marça; Dannheim, Dominik; Duarte, Jordi; Gaede, F.; Ruiz-Jimeno, Alberto; Sailer, Andre; Valentan, Manfred; Vila, Ivan; Vos, Marcel;
Open Access English
  • Published: 13 Mar 2013
  • Publisher: Institute of Physics Publishing
  • Country: Spain
Abstract
We present the second in a series of studies into the forward tracking system for a future linear e+e- collider with a center-of-mass energy in the range from 250 GeV to 3 TeV. In this note a number of specific challenges are investigated, which have caused a degradation of the tracking and vertexing performance in the forward region in previous experiments. We perform a quantitative analysis of the dependence of the tracking performance on detector design parameters and identify several ways to mitigate the performance loss for charged particles emitted at shallow angle.© CERN 2013.
doi: 10.1088/1748-0221/8/06/t06001
handle: 10261/109225
Subjects
free text keywords: Detectors and Experimental Techniques, Advanced infrastructures for detector R&D [9], Highly Granular Calorimetry [9.5], Physics - Instrumentation and Detectors, High Energy Physics - Experiment
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Funded by
EC| AIDA
Project
AIDA
Advanced European Infrastructures for Detectors at Accelerators
  • Funder: European Commission (EC)
  • Project Code: 262025
  • Funding stream: FP7 | SP4 | INFRA
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41 references, page 1 of 3

[1] The ILC community, E. Brau, James et al., ILC Reference Design Report: ILC Global Design E ort and World Wide Study, arXiv:0712.1950.

[3] J. E. Brau, R. M. Godbole, F. R. L. Diberder, M. Thomson, H. Weerts, et al., The Physics Case for an e+e- Linear Collider, arXiv:1210.0202.

[4] The ILC community, G. Aarons et al., ILC Reference Design Report Volume 2: physics at the ILC, arXiv:0709.1893.

[5] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 1: Introduction, hep-ex/0106055.

[6] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 2: Higgs and supersymmetry studies, hep-ex/0106056.

[7] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 3: Studies of exotic and standard model physics, hep-ex/0106057.

[8] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 4: Theoretical, accelerator, and experimental options, hep-ex/0106058.

[13] ATLAS Collaboration, Observation of a new particle in the search for the Standard Model Higgs boson with the ATLAS detector at the LHC, Phys.Lett. B716 (2012) 1{29, [arXiv:1207.7214].

[15] LHC/LC Study Group, G. Weiglein et al., Physics interplay of the LHC and the ILC, Phys. Rept. 426 (2006) 47{358, [hep-ph/0410364]. [OpenAIRE]

[16] The ILC community, E. . Behnke, Ties et al., ILC Reference Design Report Volume 4 - Detectors, arXiv:0712.2356.

[17] ILD Concept Group, T. Abe et al., The International Large Detector: Letter of Intent, arXiv:1006.3396.

[18] E. Aihara, H., E. Burrows, P., E. Oreglia, M., E. Berger, V. Guarino, et al., SiD Letter of Intent, arXiv:0911.0006.

[19] J. Fuster, S. Heinemeyer, C. Lacasta, C. Marinas, A. Ruiz Jimeno, et al., Forward tracking at the next e+ e- collider. Part I. The Physics case, JINST 4 (2009) P08002, [arXiv:0905.2038]. [OpenAIRE]

[20] ILD concept group, The International Large Detector: Detailed Baseline Design. 2013. to appear.

[21] D. Dannheim and M. Vos, Simulation studies for the layout of the vertex and tracking regions of the CLIC detectors, . LCD-NOTE-2011-031.

41 references, page 1 of 3
Abstract
We present the second in a series of studies into the forward tracking system for a future linear e+e- collider with a center-of-mass energy in the range from 250 GeV to 3 TeV. In this note a number of specific challenges are investigated, which have caused a degradation of the tracking and vertexing performance in the forward region in previous experiments. We perform a quantitative analysis of the dependence of the tracking performance on detector design parameters and identify several ways to mitigate the performance loss for charged particles emitted at shallow angle.© CERN 2013.
doi: 10.1088/1748-0221/8/06/t06001
handle: 10261/109225
Subjects
free text keywords: Detectors and Experimental Techniques, Advanced infrastructures for detector R&D [9], Highly Granular Calorimetry [9.5], Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Related Organizations
View more
Funded by
EC| AIDA
Project
AIDA
Advanced European Infrastructures for Detectors at Accelerators
  • Funder: European Commission (EC)
  • Project Code: 262025
  • Funding stream: FP7 | SP4 | INFRA
Download fromView all 4 versions
Digital.CSIC
Article . 2013
Provider: Digital.CSIC
CERN Document Server
Article . 2013
Provider: CERN Document Server
arXiv.org e-Print Archive
Preprint . 2013
Provider: arXiv.org e-Print Archive
http://dx.doi.org/10.1088/1748...
Article . 2013
Provider: Crossref
41 references, page 1 of 3

[1] The ILC community, E. Brau, James et al., ILC Reference Design Report: ILC Global Design E ort and World Wide Study, arXiv:0712.1950.

[3] J. E. Brau, R. M. Godbole, F. R. L. Diberder, M. Thomson, H. Weerts, et al., The Physics Case for an e+e- Linear Collider, arXiv:1210.0202.

[4] The ILC community, G. Aarons et al., ILC Reference Design Report Volume 2: physics at the ILC, arXiv:0709.1893.

[5] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 1: Introduction, hep-ex/0106055.

[6] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 2: Higgs and supersymmetry studies, hep-ex/0106056.

[7] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 3: Studies of exotic and standard model physics, hep-ex/0106057.

[8] American Linear Collider Working Group, T. Abe et al., Linear collider physics resource book for Snowmass 2001. 4: Theoretical, accelerator, and experimental options, hep-ex/0106058.

[13] ATLAS Collaboration, Observation of a new particle in the search for the Standard Model Higgs boson with the ATLAS detector at the LHC, Phys.Lett. B716 (2012) 1{29, [arXiv:1207.7214].

[15] LHC/LC Study Group, G. Weiglein et al., Physics interplay of the LHC and the ILC, Phys. Rept. 426 (2006) 47{358, [hep-ph/0410364]. [OpenAIRE]

[16] The ILC community, E. . Behnke, Ties et al., ILC Reference Design Report Volume 4 - Detectors, arXiv:0712.2356.

[17] ILD Concept Group, T. Abe et al., The International Large Detector: Letter of Intent, arXiv:1006.3396.

[18] E. Aihara, H., E. Burrows, P., E. Oreglia, M., E. Berger, V. Guarino, et al., SiD Letter of Intent, arXiv:0911.0006.

[19] J. Fuster, S. Heinemeyer, C. Lacasta, C. Marinas, A. Ruiz Jimeno, et al., Forward tracking at the next e+ e- collider. Part I. The Physics case, JINST 4 (2009) P08002, [arXiv:0905.2038]. [OpenAIRE]

[20] ILD concept group, The International Large Detector: Detailed Baseline Design. 2013. to appear.

[21] D. Dannheim and M. Vos, Simulation studies for the layout of the vertex and tracking regions of the CLIC detectors, . LCD-NOTE-2011-031.

41 references, page 1 of 3
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