publication . Article . Preprint . 2015

CLICdp Overview. Overview of physics potential at CLIC

Aharon Levy;
Open Access
  • Published: 01 Jan 2015 Journal: EPJ Web of Conferences, volume 95, page 3,022 (eissn: 2100-014X, Copyright policy)
  • Publisher: EDP Sciences
Abstract
CLICdp, the CLIC detector and physics study, is an international collaboration presently composed of 23 institutions. The collaboration is addressing detector and physics issues for the future Compact Linear Collider (CLIC), a high-energy electron-positron accelerator which is one of the options for the next collider to be built at CERN. Precision physics under challenging beam and background conditions is the key theme for the CLIC detector studies. This leads to a number of cutting-edge R&D activities within CLICdp. The talk includes a brief introduction to CLIC, accelerator and detectors, hardware R&D as well as physics studies at CLIC.
Subjects
arXiv: Physics::Accelerator PhysicsHigh Energy Physics::ExperimentPhysics::Instrumentation and Detectors
free text keywords: High Energy Physics - Experiment, hep-ex, Particle Physics - Experiment, Advanced infrastructures for detector R&D [9], Highly Granular Calorimetry [9.5], QC1-999, Detector, Electrical engineering, business.industry, business, Collider, law.invention, law, Engineering physics, Compact Linear Collider, Physics, Large Hadron Collider
Related Organizations
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
16 references, page 1 of 2

[1] CLICdp collaboration, http://clicdp.web.cern.ch/

[2] L. Linssen et al. (eds), Physics and Detectors at CLIC: CLIC Conceptual Design Report, ANLHEP-TR-12-01, CERN-2012-003, DESY 12-008, KEK Report 2011-7, arXiv:1202.5940, 2012.

[3] M. Aicheler et al. (eds), A Multi-TeV Linear Collider based on CLIC Technology: CLIC Conceptual Design Report, CERN-2012-007, JAI-2012-001, KEK Report 2012-1, PSI-12-01, SLAC-R985, 2012; P. Lebrun et al. (eds), The CLIC Programme: Towards a Staged e+e Linear Collider Exploring the Terascale: CLIC Conceptual Design Report, CERN-2012-005, ANL-HEP-TR-12-51, KEKReport-2012-2, MPP-2012-115, arXiv:1209.2543, 2012.

[4] T. Behnke et al. (eds), The International Linear Collider: Technical Design Report, Volume 1, CERN-ATS-2013-037, 2013.

[5] T. Abe et al., The International Large Detector: Letter of Intent, arXiv:1006.3369, 2010.

[6] H. Aihara et al., SiD Letter of Intent, arXiov:0911.0006, 2009

[7] D. Dannheim, Vertex-Detector R&D for CLIC, CLICdp-Conf-2014-004; N. Alipour Tehrani and P. Rolo , Optimisation studies for the CLIC vertex-detector geometry, CLICdp-Note-2014-002; S. Redford, R&D for the Vertexing at CLIC, CLICdp-Conf-2014-008.

[8] M.A. Thomson, Particle Flow Calorimetry and the PandoraPFA Algorithm, Nucl. Inst. Meth. A 611 (2009) 25; J. Marshall, A. Münnich and M.A. Thomson, Performance of particle flow calorimetry at CLIC, Nucl. Inst. Meth. A 700 (2013 153.

[9] FCAL collaboration, H. Abramowicz et al., Forward Instrumentation for ILC Detectors, JINST 5 (2010) P12002.

[10] CLICdp collaboration, H. Abramowicz et al., Physics at the CLIC e+e Linear Collider, Input to the Snowmass process, arXiv:1307.5288[hep-ex], 2013.

[11] S. Agostinelli et al., GEANT4, a simulation toolkit, Nucl. Inst. Meth. A 506 (2003) 250; J. Allison et al., GEANT4, developments and applications, IEEE Tran. Nucl. Sc. 53 (2006) 270

[12] M.A. Thomson and K. Mei, AWLC14, Fermilab, 2014.

[13] K. Seidel et al., Top quark mass measurements at and above threshold at CLIC, Eur. Phys. J. C 73 (2013) 2530.

[14] A.H. Hoang and T. Teubner, Top quark pair production at threshold: Uncertainties and relativistic corrections, Phys. Rev. D 58 (1998) 114023; A.H. Hoang and T. Teubner, Top-quark pair production close to threshold: Top-quark mass, width, and momentum distribution, Phys. Rev. D 60 (1999) 114027. [OpenAIRE]

[15] E. Coniavitis and A. Ferrari, Pair production of heavy MSSM charged and neutral Higgs bosons in multi-TeV e+e collisions at the Compact Linear Collider, Phys. Rev. D 75 (2007) 015004. [OpenAIRE]

16 references, page 1 of 2
Abstract
CLICdp, the CLIC detector and physics study, is an international collaboration presently composed of 23 institutions. The collaboration is addressing detector and physics issues for the future Compact Linear Collider (CLIC), a high-energy electron-positron accelerator which is one of the options for the next collider to be built at CERN. Precision physics under challenging beam and background conditions is the key theme for the CLIC detector studies. This leads to a number of cutting-edge R&D activities within CLICdp. The talk includes a brief introduction to CLIC, accelerator and detectors, hardware R&D as well as physics studies at CLIC.
Subjects
arXiv: Physics::Accelerator PhysicsHigh Energy Physics::ExperimentPhysics::Instrumentation and Detectors
free text keywords: High Energy Physics - Experiment, hep-ex, Particle Physics - Experiment, Advanced infrastructures for detector R&D [9], Highly Granular Calorimetry [9.5], QC1-999, Detector, Electrical engineering, business.industry, business, Collider, law.invention, law, Engineering physics, Compact Linear Collider, Physics, Large Hadron Collider
Related Organizations
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
16 references, page 1 of 2

[1] CLICdp collaboration, http://clicdp.web.cern.ch/

[2] L. Linssen et al. (eds), Physics and Detectors at CLIC: CLIC Conceptual Design Report, ANLHEP-TR-12-01, CERN-2012-003, DESY 12-008, KEK Report 2011-7, arXiv:1202.5940, 2012.

[3] M. Aicheler et al. (eds), A Multi-TeV Linear Collider based on CLIC Technology: CLIC Conceptual Design Report, CERN-2012-007, JAI-2012-001, KEK Report 2012-1, PSI-12-01, SLAC-R985, 2012; P. Lebrun et al. (eds), The CLIC Programme: Towards a Staged e+e Linear Collider Exploring the Terascale: CLIC Conceptual Design Report, CERN-2012-005, ANL-HEP-TR-12-51, KEKReport-2012-2, MPP-2012-115, arXiv:1209.2543, 2012.

[4] T. Behnke et al. (eds), The International Linear Collider: Technical Design Report, Volume 1, CERN-ATS-2013-037, 2013.

[5] T. Abe et al., The International Large Detector: Letter of Intent, arXiv:1006.3369, 2010.

[6] H. Aihara et al., SiD Letter of Intent, arXiov:0911.0006, 2009

[7] D. Dannheim, Vertex-Detector R&D for CLIC, CLICdp-Conf-2014-004; N. Alipour Tehrani and P. Rolo , Optimisation studies for the CLIC vertex-detector geometry, CLICdp-Note-2014-002; S. Redford, R&D for the Vertexing at CLIC, CLICdp-Conf-2014-008.

[8] M.A. Thomson, Particle Flow Calorimetry and the PandoraPFA Algorithm, Nucl. Inst. Meth. A 611 (2009) 25; J. Marshall, A. Münnich and M.A. Thomson, Performance of particle flow calorimetry at CLIC, Nucl. Inst. Meth. A 700 (2013 153.

[9] FCAL collaboration, H. Abramowicz et al., Forward Instrumentation for ILC Detectors, JINST 5 (2010) P12002.

[10] CLICdp collaboration, H. Abramowicz et al., Physics at the CLIC e+e Linear Collider, Input to the Snowmass process, arXiv:1307.5288[hep-ex], 2013.

[11] S. Agostinelli et al., GEANT4, a simulation toolkit, Nucl. Inst. Meth. A 506 (2003) 250; J. Allison et al., GEANT4, developments and applications, IEEE Tran. Nucl. Sc. 53 (2006) 270

[12] M.A. Thomson and K. Mei, AWLC14, Fermilab, 2014.

[13] K. Seidel et al., Top quark mass measurements at and above threshold at CLIC, Eur. Phys. J. C 73 (2013) 2530.

[14] A.H. Hoang and T. Teubner, Top quark pair production at threshold: Uncertainties and relativistic corrections, Phys. Rev. D 58 (1998) 114023; A.H. Hoang and T. Teubner, Top-quark pair production close to threshold: Top-quark mass, width, and momentum distribution, Phys. Rev. D 60 (1999) 114027. [OpenAIRE]

[15] E. Coniavitis and A. Ferrari, Pair production of heavy MSSM charged and neutral Higgs bosons in multi-TeV e+e collisions at the Compact Linear Collider, Phys. Rev. D 75 (2007) 015004. [OpenAIRE]

16 references, page 1 of 2
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