Physics with e+e- linear colliders

E. Accomando, A. Andreazza, H. Anlauf, A. Ballestrero, T. Barklow, J. Bartels, A. Bartl, M. Battaglia, W. Beenakker, G. Bélanger, W. Bernreuther, J. Biebel, J. Binnewies, J. Blümlein, E. Boos, Francesca Borzumati, F. Boudjema, A. Brandenburg, P. J. Bussey, M. CacciariR. Casalbuoni, A. Corsetti, S. de Curtis, F. Cuypers, G. Daskalakis, A. Deandrea, A. Denner, M. Diehl, S. Dittmaier, A. Djouadi, D. Dominici, H. Dreiner, H. Eberl, U. Ellwanger, R. Engel, K. Flöttmann, H. Franz, T. Gajdosik, R. Gatto, H. Genten, R. Godbole, G. Gounaris, M. Greco, J. F. Grivaz, D. Guetta, D. Haidt, R. Harlander, H. J. He, W. Hollik, K. Huitu, P. Igo-Kemenes, V. Ilyin, P. Janot, F. Jegerlehner, M. Jezabek, B. Jim, J. Kalinowski, W. Kilian, B. R. Kim, T. Kleinwort, B. A. Kniehl, M. Krämer, G. Kramer, S. Kraml, A. Krause, M. Krawczyk, A. Kryukov, J. H. Kühn, A. Kyriakis, A. Leike, H. Lotter, J. Maalampi, W. Majerotto, C. Markou, M. Martinez, U. Martyn, B. Mele, D. J. Miller, R. Miquel, A. Nippe, H. Nowak, T. Ohl, P. Osland, P. Overmann, G. Pancheri, A. A. Pankov, C. G. Papadopoulos, N. Paver, A. Pietila, M. Peter, M. Pizzio, T. Plehn, M. Pohl, N. Polonsky, W. Porod, A. Pukhov, M. Raidal, S. Riemann, T. Riemann, K. Riesselmann, I. Riu, A. de Roeck, J. Rosiek, R. Rückl, H. J. Schreiber, D. Schulte, R. Settles, R. Shanidze, S. Shichanin, E. Simopoulou, T. Sjöstrand, J. Smith, A. Sopczak, H. Spiesberger, T. Teubner, C. Troncon, C. Vander Velde, A. Vogt, R. Vuopionper, A. Wagner, J. Ward, M. Weber, B. H. Wiik, G. W. Wilson, P. M. Zerwas

Research output: Contribution to journalArticle

320 Citations (Scopus)

Abstract

The physics potential of e+e- linear colliders is summarized in this report. These machines are planned to operate in the first phase at a center-of-mass energy of 500 GeV, before being scaled up to about 1 TeV. In the second phase of the operation, a final energy of about 2 TeV is expected. The machines will allow us to perform precision tests of the heavy particles in the Standard Model, the top quark and the electroweak bosons. They are ideal facilities for exploring the properties of Higgs particles, in particular in the intermediate mass range. New vector bosons and novel matter particles in extended gauge theories can be searched for and studied thoroughly. The machines provide unique opportunities for the discovery of particles in supersymmetric extensions of the Standard Model, the spectrum of Higgs particles, the supersymmetric partners of the electroweak gauge and Higgs bosons, and of the matter particles. High precision analyses of their properties and interactions will allow for extrapolations to energy scales close to the Planck scale where gravity becomes significant. In alternative scenarios, i.e. compositeness models, novel matter particles and interactions can be discovered and investigated in the energy range above the existing colliders up to the TeV scale. Whatever scenario is realized in Nature, the discovery potential of e+e- linear colliders and the high precision with which the properties of particles and their interactions can be analyzed, define an exciting physics program complementary to hadron machines.

Original languageEnglish
Pages (from-to)1-78
Number of pages78
JournalPhysics Report
Volume299
Issue number1
DOIs
Publication statusPublished - 1998 Jun 1
Externally publishedYes

Fingerprint

physics
bosons
energy
interactions
Higgs bosons
center of mass
gauge theory
extrapolation
quarks
gravitation

Keywords

  • 12.10.-g
  • 12.15.-y
  • 12.38.-t
  • 12.60.-i
  • Compositeness
  • Electroweak gauge bosons
  • Higgs
  • Supersymmetry
  • Top quark

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

Accomando, E., Andreazza, A., Anlauf, H., Ballestrero, A., Barklow, T., Bartels, J., ... Zerwas, P. M. (1998). Physics with e+e- linear colliders. Physics Report, 299(1), 1-78. https://doi.org/10.1016/S0370-1573(97)00086-0

Physics with e+e- linear colliders. / Accomando, E.; Andreazza, A.; Anlauf, H.; Ballestrero, A.; Barklow, T.; Bartels, J.; Bartl, A.; Battaglia, M.; Beenakker, W.; Bélanger, G.; Bernreuther, W.; Biebel, J.; Binnewies, J.; Blümlein, J.; Boos, E.; Borzumati, Francesca; Boudjema, F.; Brandenburg, A.; Bussey, P. J.; Cacciari, M.; Casalbuoni, R.; Corsetti, A.; de Curtis, S.; Cuypers, F.; Daskalakis, G.; Deandrea, A.; Denner, A.; Diehl, M.; Dittmaier, S.; Djouadi, A.; Dominici, D.; Dreiner, H.; Eberl, H.; Ellwanger, U.; Engel, R.; Flöttmann, K.; Franz, H.; Gajdosik, T.; Gatto, R.; Genten, H.; Godbole, R.; Gounaris, G.; Greco, M.; Grivaz, J. F.; Guetta, D.; Haidt, D.; Harlander, R.; He, H. J.; Hollik, W.; Huitu, K.; Igo-Kemenes, P.; Ilyin, V.; Janot, P.; Jegerlehner, F.; Jezabek, M.; Jim, B.; Kalinowski, J.; Kilian, W.; Kim, B. R.; Kleinwort, T.; Kniehl, B. A.; Krämer, M.; Kramer, G.; Kraml, S.; Krause, A.; Krawczyk, M.; Kryukov, A.; Kühn, J. H.; Kyriakis, A.; Leike, A.; Lotter, H.; Maalampi, J.; Majerotto, W.; Markou, C.; Martinez, M.; Martyn, U.; Mele, B.; Miller, D. J.; Miquel, R.; Nippe, A.; Nowak, H.; Ohl, T.; Osland, P.; Overmann, P.; Pancheri, G.; Pankov, A. A.; Papadopoulos, C. G.; Paver, N.; Pietila, A.; Peter, M.; Pizzio, M.; Plehn, T.; Pohl, M.; Polonsky, N.; Porod, W.; Pukhov, A.; Raidal, M.; Riemann, S.; Riemann, T.; Riesselmann, K.; Riu, I.; de Roeck, A.; Rosiek, J.; Rückl, R.; Schreiber, H. J.; Schulte, D.; Settles, R.; Shanidze, R.; Shichanin, S.; Simopoulou, E.; Sjöstrand, T.; Smith, J.; Sopczak, A.; Spiesberger, H.; Teubner, T.; Troncon, C.; Vander Velde, C.; Vogt, A.; Vuopionper, R.; Wagner, A.; Ward, J.; Weber, M.; Wiik, B. H.; Wilson, G. W.; Zerwas, P. M.

In: Physics Report, Vol. 299, No. 1, 01.06.1998, p. 1-78.

Research output: Contribution to journalArticle

Accomando, E, Andreazza, A, Anlauf, H, Ballestrero, A, Barklow, T, Bartels, J, Bartl, A, Battaglia, M, Beenakker, W, Bélanger, G, Bernreuther, W, Biebel, J, Binnewies, J, Blümlein, J, Boos, E, Borzumati, F, Boudjema, F, Brandenburg, A, Bussey, PJ, Cacciari, M, Casalbuoni, R, Corsetti, A, de Curtis, S, Cuypers, F, Daskalakis, G, Deandrea, A, Denner, A, Diehl, M, Dittmaier, S, Djouadi, A, Dominici, D, Dreiner, H, Eberl, H, Ellwanger, U, Engel, R, Flöttmann, K, Franz, H, Gajdosik, T, Gatto, R, Genten, H, Godbole, R, Gounaris, G, Greco, M, Grivaz, JF, Guetta, D, Haidt, D, Harlander, R, He, HJ, Hollik, W, Huitu, K, Igo-Kemenes, P, Ilyin, V, Janot, P, Jegerlehner, F, Jezabek, M, Jim, B, Kalinowski, J, Kilian, W, Kim, BR, Kleinwort, T, Kniehl, BA, Krämer, M, Kramer, G, Kraml, S, Krause, A, Krawczyk, M, Kryukov, A, Kühn, JH, Kyriakis, A, Leike, A, Lotter, H, Maalampi, J, Majerotto, W, Markou, C, Martinez, M, Martyn, U, Mele, B, Miller, DJ, Miquel, R, Nippe, A, Nowak, H, Ohl, T, Osland, P, Overmann, P, Pancheri, G, Pankov, AA, Papadopoulos, CG, Paver, N, Pietila, A, Peter, M, Pizzio, M, Plehn, T, Pohl, M, Polonsky, N, Porod, W, Pukhov, A, Raidal, M, Riemann, S, Riemann, T, Riesselmann, K, Riu, I, de Roeck, A, Rosiek, J, Rückl, R, Schreiber, HJ, Schulte, D, Settles, R, Shanidze, R, Shichanin, S, Simopoulou, E, Sjöstrand, T, Smith, J, Sopczak, A, Spiesberger, H, Teubner, T, Troncon, C, Vander Velde, C, Vogt, A, Vuopionper, R, Wagner, A, Ward, J, Weber, M, Wiik, BH, Wilson, GW & Zerwas, PM 1998, 'Physics with e+e- linear colliders', Physics Report, vol. 299, no. 1, pp. 1-78. https://doi.org/10.1016/S0370-1573(97)00086-0
Accomando E, Andreazza A, Anlauf H, Ballestrero A, Barklow T, Bartels J et al. Physics with e+e- linear colliders. Physics Report. 1998 Jun 1;299(1):1-78. https://doi.org/10.1016/S0370-1573(97)00086-0
Accomando, E. ; Andreazza, A. ; Anlauf, H. ; Ballestrero, A. ; Barklow, T. ; Bartels, J. ; Bartl, A. ; Battaglia, M. ; Beenakker, W. ; Bélanger, G. ; Bernreuther, W. ; Biebel, J. ; Binnewies, J. ; Blümlein, J. ; Boos, E. ; Borzumati, Francesca ; Boudjema, F. ; Brandenburg, A. ; Bussey, P. J. ; Cacciari, M. ; Casalbuoni, R. ; Corsetti, A. ; de Curtis, S. ; Cuypers, F. ; Daskalakis, G. ; Deandrea, A. ; Denner, A. ; Diehl, M. ; Dittmaier, S. ; Djouadi, A. ; Dominici, D. ; Dreiner, H. ; Eberl, H. ; Ellwanger, U. ; Engel, R. ; Flöttmann, K. ; Franz, H. ; Gajdosik, T. ; Gatto, R. ; Genten, H. ; Godbole, R. ; Gounaris, G. ; Greco, M. ; Grivaz, J. F. ; Guetta, D. ; Haidt, D. ; Harlander, R. ; He, H. J. ; Hollik, W. ; Huitu, K. ; Igo-Kemenes, P. ; Ilyin, V. ; Janot, P. ; Jegerlehner, F. ; Jezabek, M. ; Jim, B. ; Kalinowski, J. ; Kilian, W. ; Kim, B. R. ; Kleinwort, T. ; Kniehl, B. A. ; Krämer, M. ; Kramer, G. ; Kraml, S. ; Krause, A. ; Krawczyk, M. ; Kryukov, A. ; Kühn, J. H. ; Kyriakis, A. ; Leike, A. ; Lotter, H. ; Maalampi, J. ; Majerotto, W. ; Markou, C. ; Martinez, M. ; Martyn, U. ; Mele, B. ; Miller, D. J. ; Miquel, R. ; Nippe, A. ; Nowak, H. ; Ohl, T. ; Osland, P. ; Overmann, P. ; Pancheri, G. ; Pankov, A. A. ; Papadopoulos, C. G. ; Paver, N. ; Pietila, A. ; Peter, M. ; Pizzio, M. ; Plehn, T. ; Pohl, M. ; Polonsky, N. ; Porod, W. ; Pukhov, A. ; Raidal, M. ; Riemann, S. ; Riemann, T. ; Riesselmann, K. ; Riu, I. ; de Roeck, A. ; Rosiek, J. ; Rückl, R. ; Schreiber, H. J. ; Schulte, D. ; Settles, R. ; Shanidze, R. ; Shichanin, S. ; Simopoulou, E. ; Sjöstrand, T. ; Smith, J. ; Sopczak, A. ; Spiesberger, H. ; Teubner, T. ; Troncon, C. ; Vander Velde, C. ; Vogt, A. ; Vuopionper, R. ; Wagner, A. ; Ward, J. ; Weber, M. ; Wiik, B. H. ; Wilson, G. W. ; Zerwas, P. M. / Physics with e+e- linear colliders. In: Physics Report. 1998 ; Vol. 299, No. 1. pp. 1-78.
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abstract = "The physics potential of e+e- linear colliders is summarized in this report. These machines are planned to operate in the first phase at a center-of-mass energy of 500 GeV, before being scaled up to about 1 TeV. In the second phase of the operation, a final energy of about 2 TeV is expected. The machines will allow us to perform precision tests of the heavy particles in the Standard Model, the top quark and the electroweak bosons. They are ideal facilities for exploring the properties of Higgs particles, in particular in the intermediate mass range. New vector bosons and novel matter particles in extended gauge theories can be searched for and studied thoroughly. The machines provide unique opportunities for the discovery of particles in supersymmetric extensions of the Standard Model, the spectrum of Higgs particles, the supersymmetric partners of the electroweak gauge and Higgs bosons, and of the matter particles. High precision analyses of their properties and interactions will allow for extrapolations to energy scales close to the Planck scale where gravity becomes significant. In alternative scenarios, i.e. compositeness models, novel matter particles and interactions can be discovered and investigated in the energy range above the existing colliders up to the TeV scale. Whatever scenario is realized in Nature, the discovery potential of e+e- linear colliders and the high precision with which the properties of particles and their interactions can be analyzed, define an exciting physics program complementary to hadron machines.",
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T1 - Physics with e+e- linear colliders

AU - Accomando, E.

AU - Andreazza, A.

AU - Anlauf, H.

AU - Ballestrero, A.

AU - Barklow, T.

AU - Bartels, J.

AU - Bartl, A.

AU - Battaglia, M.

AU - Beenakker, W.

AU - Bélanger, G.

AU - Bernreuther, W.

AU - Biebel, J.

AU - Binnewies, J.

AU - Blümlein, J.

AU - Boos, E.

AU - Borzumati, Francesca

AU - Boudjema, F.

AU - Brandenburg, A.

AU - Bussey, P. J.

AU - Cacciari, M.

AU - Casalbuoni, R.

AU - Corsetti, A.

AU - de Curtis, S.

AU - Cuypers, F.

AU - Daskalakis, G.

AU - Deandrea, A.

AU - Denner, A.

AU - Diehl, M.

AU - Dittmaier, S.

AU - Djouadi, A.

AU - Dominici, D.

AU - Dreiner, H.

AU - Eberl, H.

AU - Ellwanger, U.

AU - Engel, R.

AU - Flöttmann, K.

AU - Franz, H.

AU - Gajdosik, T.

AU - Gatto, R.

AU - Genten, H.

AU - Godbole, R.

AU - Gounaris, G.

AU - Greco, M.

AU - Grivaz, J. F.

AU - Guetta, D.

AU - Haidt, D.

AU - Harlander, R.

AU - He, H. J.

AU - Hollik, W.

AU - Huitu, K.

AU - Igo-Kemenes, P.

AU - Ilyin, V.

AU - Janot, P.

AU - Jegerlehner, F.

AU - Jezabek, M.

AU - Jim, B.

AU - Kalinowski, J.

AU - Kilian, W.

AU - Kim, B. R.

AU - Kleinwort, T.

AU - Kniehl, B. A.

AU - Krämer, M.

AU - Kramer, G.

AU - Kraml, S.

AU - Krause, A.

AU - Krawczyk, M.

AU - Kryukov, A.

AU - Kühn, J. H.

AU - Kyriakis, A.

AU - Leike, A.

AU - Lotter, H.

AU - Maalampi, J.

AU - Majerotto, W.

AU - Markou, C.

AU - Martinez, M.

AU - Martyn, U.

AU - Mele, B.

AU - Miller, D. J.

AU - Miquel, R.

AU - Nippe, A.

AU - Nowak, H.

AU - Ohl, T.

AU - Osland, P.

AU - Overmann, P.

AU - Pancheri, G.

AU - Pankov, A. A.

AU - Papadopoulos, C. G.

AU - Paver, N.

AU - Pietila, A.

AU - Peter, M.

AU - Pizzio, M.

AU - Plehn, T.

AU - Pohl, M.

AU - Polonsky, N.

AU - Porod, W.

AU - Pukhov, A.

AU - Raidal, M.

AU - Riemann, S.

AU - Riemann, T.

AU - Riesselmann, K.

AU - Riu, I.

AU - de Roeck, A.

AU - Rosiek, J.

AU - Rückl, R.

AU - Schreiber, H. J.

AU - Schulte, D.

AU - Settles, R.

AU - Shanidze, R.

AU - Shichanin, S.

AU - Simopoulou, E.

AU - Sjöstrand, T.

AU - Smith, J.

AU - Sopczak, A.

AU - Spiesberger, H.

AU - Teubner, T.

AU - Troncon, C.

AU - Vander Velde, C.

AU - Vogt, A.

AU - Vuopionper, R.

AU - Wagner, A.

AU - Ward, J.

AU - Weber, M.

AU - Wiik, B. H.

AU - Wilson, G. W.

AU - Zerwas, P. M.

PY - 1998/6/1

Y1 - 1998/6/1

N2 - The physics potential of e+e- linear colliders is summarized in this report. These machines are planned to operate in the first phase at a center-of-mass energy of 500 GeV, before being scaled up to about 1 TeV. In the second phase of the operation, a final energy of about 2 TeV is expected. The machines will allow us to perform precision tests of the heavy particles in the Standard Model, the top quark and the electroweak bosons. They are ideal facilities for exploring the properties of Higgs particles, in particular in the intermediate mass range. New vector bosons and novel matter particles in extended gauge theories can be searched for and studied thoroughly. The machines provide unique opportunities for the discovery of particles in supersymmetric extensions of the Standard Model, the spectrum of Higgs particles, the supersymmetric partners of the electroweak gauge and Higgs bosons, and of the matter particles. High precision analyses of their properties and interactions will allow for extrapolations to energy scales close to the Planck scale where gravity becomes significant. In alternative scenarios, i.e. compositeness models, novel matter particles and interactions can be discovered and investigated in the energy range above the existing colliders up to the TeV scale. Whatever scenario is realized in Nature, the discovery potential of e+e- linear colliders and the high precision with which the properties of particles and their interactions can be analyzed, define an exciting physics program complementary to hadron machines.

AB - The physics potential of e+e- linear colliders is summarized in this report. These machines are planned to operate in the first phase at a center-of-mass energy of 500 GeV, before being scaled up to about 1 TeV. In the second phase of the operation, a final energy of about 2 TeV is expected. The machines will allow us to perform precision tests of the heavy particles in the Standard Model, the top quark and the electroweak bosons. They are ideal facilities for exploring the properties of Higgs particles, in particular in the intermediate mass range. New vector bosons and novel matter particles in extended gauge theories can be searched for and studied thoroughly. The machines provide unique opportunities for the discovery of particles in supersymmetric extensions of the Standard Model, the spectrum of Higgs particles, the supersymmetric partners of the electroweak gauge and Higgs bosons, and of the matter particles. High precision analyses of their properties and interactions will allow for extrapolations to energy scales close to the Planck scale where gravity becomes significant. In alternative scenarios, i.e. compositeness models, novel matter particles and interactions can be discovered and investigated in the energy range above the existing colliders up to the TeV scale. Whatever scenario is realized in Nature, the discovery potential of e+e- linear colliders and the high precision with which the properties of particles and their interactions can be analyzed, define an exciting physics program complementary to hadron machines.

KW - 12.10.-g

KW - 12.15.-y

KW - 12.38.-t

KW - 12.60.-i

KW - Compositeness

KW - Electroweak gauge bosons

KW - Higgs

KW - Supersymmetry

KW - Top quark

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