Physics at the CLIC e+e- Linear Collider -- Input to the Snowmass   process 2013

Halina Abramowicz; Angel Abusleme; Konstatin Afanaciev; Gideon; Alexander; Niloufar Alipour Tehrani; Oscar Alonso; Kristoffer K. Andersen,; Samir Arfaoui; Csaba Balazs; Tim Barklow; Marco Battaglia; Mathieu Benoit,; Burak Bilki; Jean-Jacques Blaising; Mark Boland; Mar\c{c}a Boronat; Ivanka; Bo\v{z}ovi\'c Jelisav\v{c}i\'c; Philip Burrows; Maximilien Chefdeville,; Roberto Contino; Dominik Dannheim; Marcel Demarteau; Marco Aurelio Diaz; Gutierrez; Angel Di\'eguez; Jorge Duarte Campderros; Gerald Eigen; Konrad; Elsener; Dan Feldman; Uli Felzmann; Miros{\l}aw Firlej; Elena Firu; Tomasz; Fiutowski; Kurt Francis; Frank Gaede; Ignacio Garc\'ia Garc\'ia; Veta; Ghenescu; Gian Giudice; Norman Graf; Christian Grefe; Christophe Grojean,; Rick S. Gupta; Michael Hauschild; Helga Holmestad; Marek Idzik; Christian; Joram; Sergey Kananov; Yannis Karyotakis; Martin Killenberg; Wolfgang Klempt,; Sabine Kraml; Beata Krupa; Szymon Kulis; Tom\'a\v{s} La\v{s}tovi\v{c}ka; Greg; LeBlanc; Aharon Levy; Itamar Levy; Lucie Linssen; Angela Lucaci Timoce,; Strahinja Luki\'c; Vladimir Makarenko; John Marshall; Victoria Martin; Rune; E. Mikkelsen; Gordana Milutinovi\'c-Dumbelovi\'c; Akiya Miyamoto; Klaus; M\"onig; Gudrid Moortgat-Pick; Jakub Moro\'n; Astrid M\"unnich; Alina Neagu,; Mila Pandurovi\'c; Duccio Pappadopulo; Bogdan Pawlik; Werner Porod,; St\'ephane Poss; Titi Preda; Roger Rassool; Ricardo Rattazzi; Sophie Redford,; Jose Repond; Sabine Riemann; Aidan Robson; Philipp Roloff; Eduardo Ros,; Jonatan Rosten; Alberto Ruiz-Jimeno; Heidi Rzehak; Andr\'e Sailer; Dieter; Schlatter; Daniel Schulte; Felix Sefkow; Katja Seidel; Nikolai Shumeiko; Eva; Sicking; Frank Simon; Jacob Smith; Christian Soldner; Steinar Stapnes; Jan; Strube; Taikan Suehara; Krzysztof \'Swientek; Marco Szalay; Tomohiko Tanabe,; Michal Tesa\v{r}; Andrea Thamm; Mark Thomson; Juan Trenado Garcia; Ulrik I.; Uggerh{\o}j; Erik van der Kraaij; Iv\'an Vila; Eva Vilella; Miguel Angel; Villarejo; Marcelo Alonso Vogel Gonzalez; Marcel Vos; Nigel Watson; Harry; Weerts; James D. Wells; Lars Weuste; Tobias N. Wistisen; Kent Wootton; Lei; Xia; Leszek Zawiejski; Ion-Sorin Zgura

arXiv:1307.5288·hep-ex·October 1, 2013·75 cites

Physics at the CLIC e+e- Linear Collider -- Input to the Snowmass process 2013

Halina Abramowicz, Angel Abusleme, Konstatin Afanaciev, Gideon, Alexander, Niloufar Alipour Tehrani, Oscar Alonso, Kristoffer K. Andersen,, Samir Arfaoui, Csaba Balazs, Tim Barklow, Marco Battaglia, Mathieu Benoit,, Burak Bilki, Jean-Jacques Blaising, Mark Boland

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TL;DR

This paper reviews the physics potential of the CLIC high-energy e+e- linear collider, providing essential input for the Snowmass 2013 energy-frontier working groups across multiple fundamental physics topics.

Contribution

It offers a comprehensive summary of the physics opportunities at CLIC, informing future research directions and experimental strategies for the Snowmass 2013 process.

Findings

01

Highlights the potential for Higgs boson studies at CLIC

02

Emphasizes precision electroweak measurements possible with CLIC

03

Discusses prospects for discovering new particles and forces beyond the Standard Model

Abstract

This paper summarizes the physics potential of the CLIC high-energy e+e- linear collider. It provides input to the Snowmass 2013 process for the energy-frontier working groups on The Higgs Boson (HE1), Precision Study of Electroweak Interactions (HE2), Fully Understanding the Top Quark (HE3), as well as The Path Beyond the Standard Model -- New Particles, Forces, and Dimensions (HE4). It is accompanied by a paper describing the CLIC accelerator study, submitted to the Frontier Capabilities group of the Snowmass process.

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Taxonomy

TopicsDistributed and Parallel Computing Systems · Scientific Computing and Data Management · Research Data Management Practices