Supersymmetric Higgs and radiative electroweak breaking

Luis E. Ibáñez; Graham G. Ross

doi:10.1016/j.crhy.2007.02.004

Supersymmetric Higgs and radiative electroweak breaking
[Boson de Higgs supersymétrique et brisure électrofaible induite par corrections radiatives]

Luis E. Ibáñez ¹ ; Graham G. Ross ²

¹ Departamento de Física Teórica C-XI and Instituto de Física Teórica C-XVI, Universidad Autónoma de Madrid, Cantoblanco, 28049 Madrid, Spain
² Rudolf Peierls Centre for Theoretical Physics, University of Oxford, Oxford OX13NP, UK

Comptes Rendus. Physique, The mystery of the Higgs particle, Volume 8 (2007) no. 9, pp. 1013-1028.

Résumé
Abstract

Nous présentons une revue du mécanisme, à l'œuvre dans les extensions supersymétriques du modèle standard, de brisure de la symétrie électrofaible induite par corrections radiatives. Cette revue est complétée par une discussion de différents modèles cherchant à identifier l'origine de la brisure de supersymétrie et à rendre compte des termes de brisure douce ainsi générés. Enfin, un regard cirtique est porté sur différentes approches au problème dit de petite hiérarchie.

We review the mechanism of radiative electroweak symmetry breaking taking place in SUSY versions of the Standard Model. We further discuss different proposals for the origin of SUSY-breaking and the corresponding induced SUSY-breaking soft terms. Several proposals for the understanding of the little hierarchy problem are critically discussed.

Publié le : 2007-05-21

DOI : 10.1016/j.crhy.2007.02.004

Mots-clés : Grand unification, Supersymmetry, Higgs, Electroweak breaking

Affiliations des auteurs :

Luis E. Ibáñez ¹ ; Graham G. Ross ²

¹ Departamento de Física Teórica C-XI and Instituto de Física Teórica C-XVI, Universidad Autónoma de Madrid, Cantoblanco, 28049 Madrid, Spain
² Rudolf Peierls Centre for Theoretical Physics, University of Oxford, Oxford OX13NP, UK

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     author = {Luis E. Ib\'a\~nez and Graham G. Ross},
     title = {Supersymmetric {Higgs} and radiative electroweak breaking},
     journal = {Comptes Rendus. Physique},
     pages = {1013--1028},
     publisher = {Elsevier},
     volume = {8},
     number = {9},
     year = {2007},
     doi = {10.1016/j.crhy.2007.02.004},
     language = {en},
}

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Luis E. Ibáñez; Graham G. Ross. Supersymmetric Higgs and radiative electroweak breaking. Comptes Rendus. Physique, The mystery of the Higgs particle, Volume 8 (2007) no. 9, pp. 1013-1028. doi : 10.1016/j.crhy.2007.02.004. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/j.crhy.2007.02.004/

Bibliographie
Cité par

[1] M.J.G. Veltman Acta Phys. Polon. B, 12 (1981), p. 437

[2] S. Ferrara; L. Girardello; F. Palumbo Phys. Rev. D, 20 (1979), p. 403

[3] L.E. Ibáñez; G.G. Ross Phys. Lett. B, 110 (1982), p. 215

[4] K. Inoue; A. Kakuto; H. Komatsu; S. Takeshita; K. Inoue; A. Kakuto; H. Komatsu; S. Takeshita Prog. Theor. Phys., 68 (1982), p. 927 (Erratum)

[5] L. Alvarez-Gaume; J. Polchinski; M.B. Wise Nucl. Phys. B, 221 (1983), p. 495

[6] J.R. Ellis; L.E. Ibáñez; G.G. Ross Phys. Lett. B, 113 (1982), p. 283

[7] A.H. Chamseddine; R. Arnowitt; P. Nath; L.E. Ibáñez; R. Barbieri; S. Ferrara; C.A. Savoy; L.J. Hall; J. Lykken; S. Weinberg; J.R. Ellis; D.V. Nanopoulos; K. Tamvakis; J.R. Ellis; J.S. Hagelin; D.V. Nanopoulos; K. Tamvakis Phys. Lett. B, 49 (1982), p. 970

[8] L. Alvarez-Gaume; M. Claudson; M.B. Wise; S. Dimopoulos; S. Raby; M. Dine; W. Fischler Phys. Lett. B, 207 (1982), p. 96

[9] L.E. Ibáñez; G.G. Ross Phys. Lett. B, 105 (1981), p. 439

[10] S. Dimopoulos; S. Raby; F. Wilczek; S. Dimopoulos; H. Georgi Nucl. Phys. B, 24 (1981), p. 1681

[11] D.M. Ghilencea; G.G. Ross Nucl. Phys. B, 606 (2001), p. 101 | arXiv

[12] H.P. Nilles; J.A. Bagger; S.P. Martin; D. Bailin; A. Love; M. Drees; R. Godbole; P. Roy; H. Baer; X. Tata; P. Binetruy Phys. Rep., Supersymmetric Gauge Field Theory and String TheoryTheory and Phenomenology of Sparticles: An Account of Four-Dimensional N=1$ N=1$ Supersymmetry in High Energy PhysicsWeak Scale Supersymmetry: From Superfields to Scattering EventsSupersymmetry, Theory, Experiment and Cosmology, 110, Institute of Physics publishing, 1984, p. 1 | arXiv

[13] F. Gabbiani; E. Gabrielli; A. Masiero; L. Silvestrini; J.S. Hagelin; S. Kelley; T. Tanaka; T. Falk; K.A. Olive; M. Pospelov; R. Roiban; S. Abel; S. Khalil; O. Lebedev Nucl. Phys. B, 477 (1996), p. 321 | arXiv

[14] J.R. Ellis; D. Nanopoulos; K.A. Olive; Y. Santoso Phys. Lett. B, 633 (2006), p. 583 | arXiv

[15] B.C. Allanach Phys. Lett. B, 635 (2006), p. 123 | arXiv

[16] J.R. Ellis; S. Heinemeyer; K.A. Olive; G. Weiglein JHEP, 0605 (2006), p. 005 | arXiv

[17] R.R. de Austri; R. Trotta; L. Roszkowski JHEP, 0605 (2006), p. 002 | arXiv

[18] J. Ellis; S. Heinemeyer; K.A. Olive; G. Weiglein | arXiv

[19] G.F. Giudice; R. Rattazzi Phys. Rep., 322 (1999), p. 419 | arXiv

[20] L. Randall; R. Sundrum; G.F. Giudice; M.A. Luty; H. Murayama; R. Rattazzi JHEP, 557 (1999), p. 79 | arXiv

[21] D.R.T. Jones; G.G. Ross; R. Hodgson; I. Jack; D.R.T. Jones; G.G. Ross; I. Jack; D.R.T. Jones Phys. Lett. B, 728 (2005), p. 192 | arXiv

[22] K. Choi; A. Falkowski; H.P. Nilles; M. Olechowski; O. Loaiza-Brito; J. Martin; H.P. Nilles; M. Ratz; K. Choi; K.S. Jeong; T. Kobayashi; K.i. Okumura; R. Kitano; Y. Nomura; K. Choi; K.S. Jeong; K.i. Okumura; M. Endo; M. Yamaguchi; K. Yoshioka Phys. Rev. D, 718 (2005), p. 113 | arXiv

[23] J.P. Derendinger; L.E. Ibanez; H.P. Nilles; M. Dine; R. Rohm; N. Seiberg; E. Witten Phys. Lett. B, 155 (1985), p. 65

[24] V.S. Kaplunovsky; J. Louis Phys. Lett. B, 306 (1993), p. 269 | arXiv

[25] A. Brignole; L.E. Ibáñez; C. Muñoz; A. Brignole; L.E. Ibáñez; C. Muñoz Nucl. Phys. B, 422 (1994), p. 125 (Erratum) | arXiv

[26] P.G. Camara; L.E. Ibanez; A.M. Uranga; P.G. Camara; L.E. Ibanez; A.M. Uranga Nucl. Phys. B, 689 (2004), p. 195 | arXiv

[27] J.A. Casas; A. Lleyda; C. Munoz Phys. Lett. B, 380 (1996), p. 59 | arXiv

[28] S.A. Abel; B.C. Allanach; F. Quevedo; L. Ibanez; M. Klein JHEP, 0012 (2000), p. 026 | arXiv

[29] E. Cremmer; S. Ferrara; C. Kounnas; D.V. Nanopoulos; J.R. Ellis; C. Kounnas; D.V. Nanopoulos Nucl. Phys. B, 133 (1983), p. 61

[30] L.E. Ibáñez Phys. Rev. D, 71 (2005), p. 055005 | arXiv

[31] B.C. Allanach; A. Brignole; L.E. Ibáñez JHEP, 0505 (2005), p. 030 | arXiv

[32] D. Cremades; L.E. Ibáñez; F. Marchesano; F. Marchesano; G. Shiu; F. Marchesano; G. Shiu JHEP, 0307 (2003), p. 038 | arXiv

[33] D. Lüst; S. Reffert; S. Stieberger | arXiv

[34] L.E. Ibáñez; C. Muñoz; S. Rigolin; D. Lust; P. Mayr; R. Richter; S. Stieberger; B. Kors; P. Nath Nucl. Phys. B, 553 (1999), p. 43 | arXiv

[35] A. Font; L.E. Ibáñez | arXiv

[36] G.L. Kane; P. Kumar; J.D. Lykken; T.T. Wang Phys. Rev. D, 71 (2005), p. 115017 | arXiv

[37] S. Kachru; R. Kallosh; A. Linde; S.P. Trivedi; M.R. Douglas; S. Kachru Phys. Rev. D, 68, 2003, p. 046005 (For a recent review see) | arXiv

[38] B.C. Allanach; F. Quevedo; K. Suruliz; J.P. Conlon; D. Cremades; F. Quevedo; S. Abdussalam; J.P. Conlon; F. Quevedo; K. Suruliz JHEP, 0604, 2006, p. 040 | arXiv

[39] K. Choi; A. Falkowski; H.P. Nilles; M. Olechowski Nucl. Phys. B, 718 (2005), p. 113 | arXiv

[40] D.E. Diaconescu; B. Florea; S. Kachru; P. Svrcek; I. Garcia-Etxebarria; F. Saad; A.M. Uranga JHEP, 0602 (2006), p. 020 | arXiv

[41] L.E. Ibanez; G.G. Ross; A. Dedes; P. Slavich Nucl. Phys. B, 675 (2003), p. 333 (For a two loop treatment of radiative breaking see:) | arXiv

[42] K. Inoue et al. Prog. Theor. Phys., 67 (1982), p. 1889

[43] L.E. Ibáñez; C. López; L.E. Ibáñez; C. López; L.E. Ibáñez; C. López; C. Muñoz Nucl. Phys. B, 126 (1984), p. 54

[44] H.E. Haber; R. Hempfling; J.R. Ellis; G. Ridolfi; F. Zwirner; Y. Okada; M. Yamaguchi; T. Yanagida Phys. Lett. B, 66 (1991), p. 1815

[45] G.L. Kane; S.F. King; M. Bastero-Gil; G.L. Kane; S.F. King Phys. Lett. B, 451 (1999), p. 113 | arXiv

[46] R. Barbieri; G.F. Giudice Nucl. Phys. B, 306 (1988), p. 63

[47] J.A. Casas; J.R. Espinosa; I. Hidalgo JHEP, 0503 (2005), p. 038 | arXiv

[48] J.A. Casas; J.R. Espinosa; I. Hidalgo | arXiv

[49] Z. Chacko; Y. Nomura; D. Tucker-Smith Nucl. Phys. B, 725 (2005), p. 207 | arXiv

[50] R. Kitano; Y. Nomura Phys. Lett. B, 631 (2005), p. 58 | arXiv

[51] O. Lebedev; H.P. Nilles; M. Ratz | arXiv

[52] P.C. Schuster; N. Toro | arXiv

[53] A. Falkowski; S. Pokorski; M. Schmaltz; A. Birkedal; Z. Chacko; M.K. Gaillard; P.H. Chankowski; A. Falkowski; S. Pokorski; J. Wagner; Z. Berezhiani; P.H. Chankowski; A. Falkowski; S. Pokorski; T. Roy; M. Schmaltz; C. Csaki; G. Marandella; Y. Shirman; A. Strumia Phys. Rev. D, 74 (2006), p. 035003 | arXiv

[54] N. Arkani-Hamed; A. Cohen; H. Georgi; N. Arkani-Hamed et al. JHEP, 513 (2002), p. 232 | arXiv

[55] N. Arkani-Hamed; S. Dimopoulos; G.F. Giudice; R. Rattazzi Nucl. Phys. B, 0506 (2005), p. 073 | arXiv

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