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The plan for the International Linear Collider (ILC) is now being prepared as a staged design, with the first stage of 2 ${\rm ab^{-1}}$ at 250GeV and later stages achieving the full project specifications with 4 ${\rm ab^{-1}}$ at 500 GeV.…

High Energy Physics - Experiment · Physics 2021-06-18 Tomohisa Ogawa

This paper describes a comprehensive experimental study on viability and prospects for the measurement of electroweak observables in $e^{+}e^{-}\rightarrow b\bar{b}$ and $e^{+}e^{-}\rightarrow c\bar{c}$ processes at the International Linear…

High Energy Physics - Experiment · Physics 2023-12-20 A. Irles , R. Pöschl , F. Richard

ILC (International Linear Collider) is under consideration as the next global project of particle physics. Its Technical Design Report, published in 2013, describes the accelerator for the center-of-mass energies above 200GeV. The operation…

Accelerator Physics · Physics 2019-09-16 Kaoru Yokoya , Kiyoshi Kubo , Toshiyuki Okugi

An electron/positron linear collider with a center-of-mass energy between 0.5 and 1 TeV would be an important complement to the physics program of the LHC in the next decade. The Next Linear Collider (NLC) is being designed by a US…

Accelerator Physics · Physics 2009-11-06 T. O. Raubenheimer

The Compact Linear Collider (CLIC) is a mature option for a future electron-positron collider operating at centre-of-mass energies of up to 3 TeV. It incorporates a novel two-beam acceleration technique offering accelerating gradient of up…

High Energy Physics - Experiment · Physics 2022-09-21 Jan Klamka

The International Linear Collider (ILC) is a proposed electron -- positron collider with a collision energy of $\sqrt{s}$ = 500 GeV in the baseline configuration. The ILC physics program takes full advantage of the fact that the machine can…

High Energy Physics - Experiment · Physics 2015-11-23 Jan Strube

The Compact Linear Collider (CLIC) is a multi-TeV high-luminosity linear e+e- collider under development. For an optimal exploitation of its physics potential, CLIC is foreseen to be built and operated in a staged approach with three…

Accelerator Physics · Physics 2017-03-28 The CLIC , CLICdp collaborations , : , M. J. Boland , U. Felzmann , P. J. Giansiracusa , T. G. Lucas , R. P. Rassool , C. Balazs , T. K. Charles , K. Afanaciev , I. Emeliantchik , A. Ignatenko , V. Makarenko , N. Shumeiko , A. Patapenka , I. Zhuk , A. C. Abusleme Hoffman , M. A. Diaz Gutierrez , M. Vogel Gonzalez , Y. Chi , X. He , G. Pei , S. Pei , G. Shu , X. Wang , J. Zhang , F. Zhao , Z. Zhou , H. Chen , Y. Gao , W. Huang , Y. P. Kuang , B. Li , Y. Li , J. Shao , J. Shi , C. Tang , X. Wu , L. Ma , Y. Han , W. Fang , Q. Gu , D. Huang , X. Huang , J. Tan , Z. Wang , Z. Zhao , T. Laštovička , U. Uggerhoj , T. N. Wistisen , A. Aabloo , K. Eimre , K. Kuppart , S. Vigonski , V. Zadin , M. Aicheler , E. Baibuz , E. Brücken , F. Djurabekova , P. Eerola , F. Garcia , E. Haeggström , K. Huitu , V. Jansson , V. Karimaki , I. Kassamakov , A. Kyritsakis , S. Lehti , A. Meriläinen , R. Montonen , T. Niinikoski , K. Nordlund , K. Österberg , M. Parekh , N. A. Törnqvist , J. Väinölä , M. Veske , W. Farabolini , A. Mollard , O. Napoly , F. Peauger , J. Plouin , P. Bambade , I. Chaikovska , R. Chehab , M. Davier , W. Kaabi , E. Kou , F. LeDiberder , R. Pöschl , D. Zerwas , B. Aimard , G. Balik , J. -P. Baud , J. -J. Blaising , L. Brunetti , M. Chefdeville , C. Drancourt , N. Geoffroy , J. Jacquemier , A. Jeremie , Y. Karyotakis , J. M. Nappa , S. Vilalte , G. Vouters , A. Bernard , I. Peric , M. Gabriel , F. Simon , M. Szalay , N. van der Kolk , T. Alexopoulos , E. N. Gazis , N. Gazis , E. Ikarios , V. Kostopoulos , S. Kourkoulis , P. D. Gupta , P. Shrivastava , H. Arfaei , M. K. Dayyani , H. Ghasem , S. S. Hajari , H. Shaker , Y. Ashkenazy , H. Abramowicz , Y. Benhammou , O. Borysov , S. Kananov , A. Levy , I. Levy , O. Rosenblat , G. D'Auria , S. Di Mitri , T. Abe , A. Aryshev , T. Higo , Y. Makida , S. Matsumoto , T. Shidara , T. Takatomi , Y. Takubo , T. Tauchi , N. Toge , K. Ueno , J. Urakawa , A. Yamamoto , M. Yamanaka , R. Raboanary , R. Hart , H. van der Graaf , G. Eigen , J. Zalieckas , E. Adli , R. Lillestøl , L. Malina , J. Pfingstner , K. N. Sjobak , W. Ahmed , M. I. Asghar , H. Hoorani , S. Bugiel , R. Dasgupta , M. Firlej , T. A. Fiutowski , M. Idzik , M. Kopec , M. Kuczynska , J. Moron , K. P. Swientek , W. Daniluk , B. Krupa , M. Kucharczyk , T. Lesiak , A. Moszczynski , B. Pawlik , P. Sopicki , T. Wojtoń , L. Zawiejski , J. Kalinowski , M. Krawczyk , A. F. Żarnecki , E. Firu , V. Ghenescu , A. T. Neagu , T. Preda , I-S. Zgura , A. Aloev , N. Azaryan , J. Budagov , M. Chizhov , M. Filippova , V. Glagolev , A. Gongadze , S. Grigoryan , D. Gudkov , V. Karjavine , M. Lyablin , A. Olyunin , A. Samochkine , A. Sapronov , G. Shirkov , V. Soldatov , A. Solodko , E. Solodko , G. Trubnikov , I. Tyapkin , V. Uzhinsky , A. Vorozhtov , E. Levichev , N. Mezentsev , P. Piminov , D. Shatilov , P. Vobly , K. Zolotarev , I. Bozovic Jelisavcic , G. Kacarevic , S. Lukic , G. Milutinovic-Dumbelovic , M. Pandurovic , U. Iriso , F. Perez , M. Pont , J. Trenado , M. Aguilar-Benitez , J. Calero , L. Garcia-Tabares , D. Gavela , J. L. Gutierrez , D. Lopez , F. Toral , D. Moya , A. Ruiz Jimeno , I. Vila , T. Argyropoulos , C. Blanch Gutierrez , M. Boronat , D. Esperante , A. Faus-Golfe , J. Fuster , N. Fuster Martinez , N. Galindo Muñoz , I. García , J. Giner Navarro , E. Ros , M. Vos , R. Brenner , T. Ekelöf , M. Jacewicz , J. Ögren , M. Olvegård , R. Ruber , V. Ziemann , D. Aguglia , N. Alipour Tehrani , A. Andersson , F. Andrianala , F. Antoniou , K. Artoos , S. Atieh , R. Ballabriga Sune , M. J. Barnes , J. Barranco Garcia , H. Bartosik , C. Belver-Aguilar , A. Benot Morell , D. R. Bett , S. Bettoni , G. Blanchot , O. Blanco Garcia , X. A. Bonnin , O. Brunner , H. Burkhardt , S. Calatroni , M. Campbell , N. Catalan Lasheras , M. Cerqueira Bastos , A. Cherif , E. Chevallay , B. Constance , R. Corsini , B. Cure , S. Curt , B. Dalena , D. Dannheim , G. De Michele , L. De Oliveira , N. Deelen , J. P. Delahaye , T. Dobers , S. Doebert , M. Draper , F. Duarte Ramos , A. Dubrovskiy , K. Elsener , J. Esberg , M. Esposito , V. Fedosseev , P. Ferracin , A. Fiergolski , K. Foraz , A. Fowler , F. Friebel , J-F. Fuchs , C. A. Fuentes Rojas , A. Gaddi , L. Garcia Fajardo , H. Garcia Morales , C. Garion , L. Gatignon , J-C. Gayde , H. Gerwig , A. N. Goldblatt , C. Grefe , A. Grudiev , F. G. Guillot-Vignot , M. L. Gutt-Mostowy , M. Hauschild , C. Hessler , J. K. Holma , E. Holzer , M. Hourican , D. Hynds , Y. Inntjore Levinsen , B. Jeanneret , E. Jensen , M. Jonker , M. Kastriotou , J. M. K. Kemppinen , R. B. Kieffer , W. Klempt , O. Kononenko , A. Korsback , E. Koukovini Platia , J. W. Kovermann , C-I. Kozsar , I. Kremastiotis , S. Kulis , A. Latina , F. Leaux , P. Lebrun , T. Lefevre , L. Linssen , X. Llopart Cudie , A. A. Maier , H. Mainaud Durand , E. Manosperti , C. Marelli , E. Marin Lacoma , R. Martin , S. Mazzoni , G. Mcmonagle , O. Mete , L. M. Mether , M. Modena , R. M. Münker , T. Muranaka , E. Nebot Del Busto , N. Nikiforou , D. Nisbet , J-M. Nonglaton , F. X. Nuiry , A. Nürnberg , M. Olvegard , J. Osborne , S. Papadopoulou , Y. Papaphilippou , A. Passarelli , M. Patecki , L. Pazdera , D. Pellegrini , K. Pepitone , E. Perez Codina , A. Perez Fontenla , T. H. B. Persson , M. Petrič , F. Pitters , S. Pittet , F. Plassard , R. Rajamak , S. Redford , Y. Renier , S. F. Rey , G. Riddone , L. Rinolfi , E. Rodriguez Castro , P. Roloff , C. Rossi , V. Rude , G. Rumolo , A. Sailer , E. Santin , D. Schlatter , H. Schmickler , D. Schulte , N. Shipman , E. Sicking , R. Simoniello , P. K. Skowronski , P. Sobrino Mompean , L. Soby , M. P. Sosin , S. Sroka , S. Stapnes , G. Sterbini , R. Ström , I. Syratchev , F. Tecker , P. A. Thonet , L. Timeo , H. Timko , R. Tomas Garcia , P. Valerio , A. L. Vamvakas , A. Vivoli , M. A. Weber , R. Wegner , M. Wendt , B. Woolley , W. Wuensch , J. Uythoven , H. Zha , P. Zisopoulos , M. Benoit , M. Vicente Barreto Pinto , M. Bopp , H. H. Braun , M. Csatari Divall , M. Dehler , T. Garvey , J. Y. Raguin , L. Rivkin , R. Zennaro , A. Aksoy , Z. Nergiz , E. Pilicer , I. Tapan , O. Yavas , V. Baturin , R. Kholodov , S. Lebedynskyi , V. Miroshnichenko , S. Mordyk , I. Profatilova , V. Storizhko , N. Watson , A. Winter , J. Goldstein , S. Green , J. S. Marshall , M. A. Thomson , B. Xu , W. A. Gillespie , R. Pan , M. A Tyrk , D. Protopopescu , A. Robson , R. Apsimon , I. Bailey , G. Burt , D. Constable , A. Dexter , S. Karimian , C. Lingwood , M. D. Buckland , G. Casse , J. Vossebeld , A. Bosco , P. Karataev , K. Kruchinin , K. Lekomtsev , L. Nevay , J. Snuverink , E. Yamakawa , V. Boisvert , S. Boogert , G. Boorman , S. Gibson , A. Lyapin , W. Shields , P. Teixeira-Dias , S. West , R. Jones , N. Joshi , R. Bodenstein , P. N. Burrows , G. B. Christian , D. Gamba , C. Perry , J. Roberts , J. A. Clarke , N. A. Collomb , S. P. Jamison , B. J. A. Shepherd , D. Walsh , M. Demarteau , J. Repond , H. Weerts , L. Xia , J. D. Wells , C. Adolphsen , T. Barklow , M. Breidenbach , N. Graf , J. Hewett , T. Markiewicz , D. McCormick , K. Moffeit , Y. Nosochkov , M. Oriunno , N. Phinney , T. Rizzo , S. Tantawi , F. Wang , J. Wang , G. White , M. Woodley

Letter of intent describing SiD (Silicon Detector) for consideration by the International Linear Collider IDAG panel. This detector concept is founded on the use of silicon detectors for vertexing, tracking, and electromagnetic calorimetry.…

Instrumentation and Detectors · Physics 2009-11-03 H. Aihara , P. Burrows , M. Oreglia

This document provides input from the CLIC e+e- linear collider studies to the update process of the European Strategy for Particle Physics. It is submitted on behalf of the CLIC/CTF3 collaboration and the CLIC physics and detector study.…

We report on Discussion Question 4, in Sub-group 1 (`TeV-class') of the Snowmass Working Group E3: `Experimental Approaches: Linear Colliders', which addresses the energy expandability of a linear collider. We first synthesize discussions…

High Energy Physics - Experiment · Physics 2011-01-13 P. N. Burrows , J. R. Patterson

The conceptional design of the proposed linear electron-positron collider TESLA is based on 9-cell 1.3 GHz superconducting niobium cavities with an accelerating gradient of Eacc >= 25 MV/m at a quality factor Q0 > 5E+9. The design goal for…

Accelerator Physics · Physics 2009-11-06 B. Aune

We first outline the Standard Model (SM) of particle physics, particle production and decay, and the expected signal and background at a Higgs factory like the International Linear Collider (ILC). We then introduce high energy colliders and…

High Energy Physics - Phenomenology · Physics 2020-05-12 C. T. Potter

This report summarizes the progress in the study of Higgs physics at a future linear electron positron collider at center-of-mass energies up to about 1000 GeV and high luminosity. After the publication of the TESLA Technical Design Report,…

High Energy Physics - Phenomenology · Physics 2007-05-23 K. Desch

The Circular Electron Positron Collider (CEPC) is a large international scientific project initiated and hosted by China. It is located in a 100-km circumference underground tunnel. The accelerator complex consists of a linear accelerator…

Accelerator Physics · Physics 2018-11-09 The CEPC Study Group

Superconducting technology makes it possible to build a high energy $e^+e^-$ linear collider with energy recovery (ERLC) and reusable beams. To avoid parasitic collisions inside the linacs, a twin (dual) LC is proposed. In this article, I…

Accelerator Physics · Physics 2023-06-21 V. I. Telnov

The Compact Linear Collider (CLIC) is a proposed future high-luminosity linear electron-positron collider operating at three energy stages, with nominal centre-of-mass energies: 380 GeV, 1.5 TeV, and 3 TeV. Its aim is to explore the energy…

High Energy Physics - Experiment · Physics 2019-11-21 H. Abramowicz , N. Alipour Tehrani , D. Arominski , Y. Benhammou , M. Benoit , J. -J. Blaising , M. Boronat , O. Borysov , R. R. Bosley , I. Božović Jelisavčić , I. Boyko , S. Brass , E. Brondolin , P. Bruckman de Renstrom , M. Buckland , P. N. Burrows , M. Chefdeville , S. Chekanov , T. Coates , D. Dannheim , M. Demarteau , H. Denizli , G. Durieux , G. Eigen , K. Elsener , E. Fullana , J. Fuster , M. Gabriel , F. Gaede , I. García , J. Goldstein , P. Gomis Lopez , C. Graf , S. Green , C. Grefe , C. Grojean , A. Hoang , D. Hynds , A. Joffe , J. Kalinowski , G. Kačarević , W. Kilian , N. van der Kolk , M. Krawczyk , M. Kucharczyk , E. Leogrande , T. Lesiak , A. Levy , I. Levy , L. Linssen , A. A. Maier , V. Makarenko , J. S. Marshall , V. Martin , V. Mateu , O. Matsedonskyi , J. Metcalfe , G. Milutinović Dumbelović , R. M. Münker , Yu. Nefedov , K. Nowak , A. Nürnberg , M. Pandurović , M. Perelló , E. Perez Codina , M. Petric , F. Pitters , T. Price , T. Quast , S. Redford , J. Repond , A. Robson , P. Roloff , E. Ros , K. Rozwadowska , A. Ruiz-Jimeno , A. Sailer , F. Salvatore , U. Schnoor , D. Schulte , A. Senol , G. Shelkov , E. Sicking , F. Simon , R. Simoniello , P. Sopicki , S. Spannagel , S. Stapnes , R. Ström , M. Szalay , M. A. Thomson , B. Turbiarz , O. Viazlo , M. Vicente , I. Vila , M. Vos , J. Vossebeld , M. F. Watson , N. K. Watson , M. A. Weber , H. Weerts , J. D. Wells , A. Widl , M. Williams , A. G. Winter , T. Wojtoń , A. Wulzer , B. Xu , L. Xia , T. You , A. F. Żarnecki , L. Zawiejski , C. Zhang , J. Zhang , Y. Zhang , Z. Zhang , A. Zhemchugov

The International Linear Collider (ILC) is a proposed electron-positron collider with a center-of-mass energy of 500~GeV, and a peak luminosity of $2 \cdot 10^{34}~\mathrm{cm}^{-2}\mathrm{s}^{-1}$. The ILC will complement the Large Hadron…

Accelerator Physics · Physics 2010-10-29 Iftach Sadeh

The plan for the International Linear Collider is now being prepared as a staged design, with the first stage at 250 GeV and later stages achieving the full project specifications with 4 ab-1 at 500 GeV. This talk will present the…

High Energy Physics - Experiment · Physics 2017-10-03 Jan Strube

Studies of the physics potential of the Future Linear Collider are establishing a broad programme which will start in the region of 350 to 500 GeV C. of M. energy. The main goal is to understand why the standard model works; by studying the…

High Energy Physics - Phenomenology · Physics 2007-05-23 D J Miller

We discuss the goals, the designs, the state of technical readiness, and the critical R&D needs of the accelerators that are currently under discussion as Higgs and electroweak factories. We also address the respective staging options…