The hyperbolic Higgs. (English) Zbl 1391.81188
Summary: We introduce the Hyperbolic Higgs, a novel solution to the little hierarchy problem that features Standard Model neutral scalar top partners. At one-loop order, the protection from ultraviolet sensitivity is due to an accidental non-compact symmetry of the Higgs potential that emerges in the infrared. Once the general features of the effective description are detailed, a completion that relies on a five dimensional supersymmetric framework is provided. Novel phenomenology is compared and contrasted with the Twin Higgs scenario.
MSC:
| 81T60 | Supersymmetric field theories in quantum mechanics |
| 83E15 | Kaluza-Klein and other higher-dimensional theories |
References:
| [1] | Z. Chacko, H.-S. Goh and R. Harnik, The Twin Higgs: Natural electroweak breaking from mirror symmetry, Phys. Rev. Lett.96 (2006) 231802 [hep-ph/0506256] [INSPIRE]. |
| [2] | Z. Chacko, H.-S. Goh and R. Harnik, A Twin Higgs model from left-right symmetry, JHEP01 (2006) 108 [hep-ph/0512088] [INSPIRE]. · Zbl 1243.81200 |
| [3] | G. Burdman, Z. Chacko, H.-S. Goh and R. Harnik, Folded supersymmetry and the LEP paradox, JHEP02 (2007) 009 [hep-ph/0609152] [INSPIRE]. |
| [4] | Poland, D.; Thaler, J., The dark top, JHEP, 11, 083, (2008) · doi:10.1088/1126-6708/2008/11/083 |
| [5] | Chacko, Z.; Krenke, CA; Okui, T., Supersymmetry in slow motion, JHEP, 01, 050, (2009) · Zbl 1243.81200 · doi:10.1088/1126-6708/2009/01/050 |
| [6] | Cai, H.; Cheng, H-C; Terning, J., A quirky little Higgs model, JHEP, 05, 045, (2009) · doi:10.1088/1126-6708/2009/05/045 |
| [7] | Craig, N.; Knapen, S.; Longhi, P., Neutral naturalness from orbifold Higgs models, Phys. Rev. Lett., 114, (2015) · doi:10.1103/PhysRevLett.114.061803 |
| [8] | Batell, B.; McCullough, M., Neutrino masses from neutral top partners, Phys. Rev., D 92, (2015) |
| [9] | Curtin, D.; Saraswat, P., Towards a no-lose theorem for naturalness, Phys. Rev., D 93, (2016) |
| [10] | Cheng, H-C; Jung, S.; Salvioni, E.; Tsai, Y., Exotic quarks in twin Higgs models, JHEP, 03, 074, (2016) · doi:10.1007/JHEP03(2016)074 |
| [11] | Craig, N.; Knapen, S.; Longhi, P.; Strassler, M., The vector-like twin Higgs, JHEP, 07, 002, (2016) · Zbl 1388.81969 · doi:10.1007/JHEP07(2016)002 |
| [12] | Gherghetta, T.; Nguyen, M.; Thomas, Z., Neutral naturalness with bifundamental gluinos, Phys. Rev., D 94, 115008, (2016) |
| [13] | Kats, Y.; McCullough, M.; Perez, G.; Soreq, Y.; Thaler, J., Colorful twisted top partners and partnerium at the LHC, JHEP, 06, 126, (2017) · doi:10.1007/JHEP06(2017)126 |
| [14] | R. Barbieri, T. Gregoire and L.J. Hall, Mirror world at the large hadron collider, hep-ph/0509242 [INSPIRE]. |
| [15] | Z. Chacko, Y. Nomura, M. Papucci and G. Perez, Natural little hierarchy from a partially goldstone twin Higgs, JHEP01 (2006) 126 [hep-ph/0510273] [INSPIRE]. |
| [16] | A. Falkowski, S. Pokorski and M. Schmaltz, Twin SUSY, Phys. Rev.D 74 (2006) 035003 [hep-ph/0604066] [INSPIRE]. · Zbl 1250.81106 |
| [17] | S. Chang, L.J. Hall and N. Weiner, A Supersymmetric twin Higgs, Phys. Rev.D 75 (2007) 035009 [hep-ph/0604076] [INSPIRE]. |
| [18] | R. Foot and R.R. Volkas, Natural electroweak symmetry breaking in generalised mirror matter models, Phys. Lett.B 645 (2007) 75 [hep-ph/0610013] [INSPIRE]. · Zbl 1256.81091 |
| [19] | Craig, N.; Englert, C.; McCullough, M., New probe of naturalness, Phys. Rev. Lett., 111, 121803, (2013) · doi:10.1103/PhysRevLett.111.121803 |
| [20] | Hedri, S.; Hook, A., Minimal signatures of naturalness, JHEP, 10, 105, (2013) · doi:10.1007/JHEP10(2013)105 |
| [21] | Craig, N.; Howe, K., Doubling down on naturalness with a supersymmetric twin Higgs, JHEP, 03, 140, (2014) · doi:10.1007/JHEP03(2014)140 |
| [22] | Geller, M.; Telem, O., Holographic twin Higgs model, Phys. Rev. Lett., 114, 191801, (2015) · doi:10.1103/PhysRevLett.114.191801 |
| [23] | Burdman, G.; Chacko, Z.; Harnik, R.; Lima, L.; Verhaaren, CB, Colorless top partners, a 125 gev Higgs and the limits on naturalness, Phys. Rev., D 91, (2015) |
| [24] | Craig, N.; Knapen, S.; Longhi, P., The orbifold Higgs, JHEP, 03, 106, (2015) · Zbl 1388.81142 · doi:10.1007/JHEP03(2015)106 |
| [25] | Craig, N.; Katz, A.; Strassler, M.; Sundrum, R., Naturalness in the dark at the LHC, JHEP, 07, 105, (2015) · doi:10.1007/JHEP07(2015)105 |
| [26] | Barbieri, R.; Greco, D.; Rattazzi, R.; Wulzer, A., The composite twin Higgs scenario, JHEP, 08, 161, (2015) · Zbl 1388.81957 · doi:10.1007/JHEP08(2015)161 |
| [27] | Low, M.; Tesi, A.; Wang, L-T, Twin Higgs mechanism and a composite Higgs boson, Phys. Rev., D 91, (2015) |
| [28] | Buttazzo, D.; Sala, F.; Tesi, A., Singlet-like Higgs bosons at present and future colliders, JHEP, 11, 158, (2015) · doi:10.1007/JHEP11(2015)158 |
| [29] | Curtin, D.; Verhaaren, CB, Discovering uncolored naturalness in exotic Higgs decays, JHEP, 12, 072, (2015) |
| [30] | Cohen, T.; Craig, N.; Lou, HK; Pinner, D., Folded supersymmetry with a twist, JHEP, 03, 196, (2016) · doi:10.1007/JHEP03(2016)196 |
| [31] | Beauchesne, H.; Earl, K.; Grégoire, T., The spontaneous ℤ_{2} breaking twin Higgs, JHEP, 01, 130, (2016) · doi:10.1007/JHEP01(2016)130 |
| [32] | Bai, Y.; Lu, R.; Lu, S.; Salvado, J.; Stefanek, BA, Three twin neutrinos: evidence from LSND and miniboone, Phys. Rev., D 93, (2016) |
| [33] | Chacko, Z.; Curtin, D.; Verhaaren, CB, A quirky probe of neutral naturalness, Phys. Rev., D 94, (2016) |
| [34] | Yu, J-H, Radiative-ℤ_{2}-breaking twin Higgs model, Phys. Rev., D 94, 111704, (2016) |
| [35] | Yu, J-H, A tale of twin Higgs: natural twin two Higgs doublet models, JHEP, 12, 143, (2016) · doi:10.1007/JHEP12(2016)143 |
| [36] | Barbieri, R.; Hall, LJ; Harigaya, K., Minimal mirror twin Higgs, JHEP, 11, 172, (2016) · doi:10.1007/JHEP11(2016)172 |
| [37] | Katz, A.; Mariotti, A.; Pokorski, S.; Redigolo, D.; Ziegler, R., SUSY meets her twin, JHEP, 01, 142, (2017) · Zbl 1373.81355 · doi:10.1007/JHEP01(2017)142 |
| [38] | Cheng, H-C; Salvioni, E.; Tsai, Y., Exotic electroweak signals in the twin Higgs model, Phys. Rev., D 95, 115035, (2017) |
| [39] | Contino, R.; Greco, D.; Mahbubani, R.; Rattazzi, R.; Torre, R., Precision tests and fine tuning in twin Higgs models, Phys. Rev., D 96, (2017) |
| [40] | Badziak, M.; Harigaya, K., Supersymmetric D-term twin Higgs, JHEP, 06, 065, (2017) · doi:10.1007/JHEP06(2017)065 |
| [41] | K. Thrasher, Signatures of an S_{3}-Orbifold Higgs Model, arXiv:1705.01472 [INSPIRE]. |
| [42] | Badziak, M.; Harigaya, K., Minimal non-abelian supersymmetric twin Higgs, JHEP, 10, 109, (2017) · doi:10.1007/JHEP10(2017)109 |
| [43] | Serra, J.; Torre, R., Neutral naturalness from the brother-Higgs model, Phys. Rev., D 97, (2018) |
| [44] | Ahmed, A., Heavy Higgs of the twin Higgs models, JHEP, 02, 048, (2018) · doi:10.1007/JHEP02(2018)048 |
| [45] | Chacko, Z.; Kilic, C.; Najjari, S.; Verhaaren, CB, Testing the scalar sector of the twin Higgs model at colliders, Phys. Rev., D 97, (2018) |
| [46] | M. Badziak and K. Harigaya, Asymptotically Free Natural SUSY Twin Higgs, arXiv:1711.11040 [INSPIRE]. |
| [47] | Scherk, J.; Schwarz, JH, How to get masses from extra dimensions, Nucl. Phys., B 153, 61, (1979) · doi:10.1016/0550-3213(79)90592-3 |
| [48] | Scherk, J.; Schwarz, JH, Spontaneous breaking of supersymmetry through dimensional reduction, Phys. Lett., B 82, 60, (1979) · doi:10.1016/0370-2693(79)90425-8 |
| [49] | I. Antoniadis, S. Dimopoulos, A. Pomarol and M. Quirós, Soft masses in theories with supersymmetry breaking by TeV compactification, Nucl. Phys.B 544 (1999) 503 [hep-ph/9810410] [INSPIRE]. |
| [50] | A. Delgado, A. Pomarol and M. Quirós, Supersymmetry and electroweak breaking from extra dimensions at the TeV scale, Phys. Rev.D 60 (1999) 095008 [hep-ph/9812489] [INSPIRE]. · Zbl 1388.81957 |
| [51] | N. Arkani-Hamed, L.J. Hall, Y. Nomura, D. Tucker-Smith and N. Weiner, Finite radiative electroweak symmetry breaking from the bulk, Nucl. Phys.B 605 (2001) 81 [hep-ph/0102090] [INSPIRE]. |
| [52] | Coleman, SR; Weinberg, EJ, Radiative corrections as the origin of spontaneous symmetry breaking, Phys. Rev., D 7, 1888, (1973) |
| [53] | Davies, R.; March-Russell, J.; McCullough, M., A supersymmetric one Higgs doublet model, JHEP, 04, 108, (2011) · Zbl 1250.81106 · doi:10.1007/JHEP04(2011)108 |
| [54] | Dimopoulos, S.; Howe, K.; March-Russell, J., Maximally natural supersymmetry, Phys. Rev. Lett., 113, 111802, (2014) · doi:10.1103/PhysRevLett.113.111802 |
| [55] | Dimopoulos, S.; Howe, K.; March-Russell, J.; Scoville, J., Auto-concealment of supersymmetry in extra dimensions, JHEP, 06, 041, (2015) · doi:10.1007/JHEP06(2015)041 |
| [56] | Garcia Garcia, I.; Howe, K.; March-Russell, J., Natural Scherk-Schwarz theories of the weak scale, JHEP, 12, 005, (2015) · Zbl 1388.81816 |
| [57] | P. Batra, A. Delgado, D.E. Kaplan and T.M.P. Tait, The Higgs mass bound in gauge extensions of the minimal supersymmetric standard model, JHEP02 (2004) 043 [hep-ph/0309149] [INSPIRE]. |
| [58] | A. Maloney, A. Pierce and J.G. Wacker, D-terms, unification and the Higgs mass, JHEP06 (2006) 034 [hep-ph/0409127] [INSPIRE]. |
| [59] | Cheung, C.; Roberts, HL, Higgs mass from D-terms: a litmus test, JHEP, 12, 018, (2013) · doi:10.1007/JHEP12(2013)018 |
| [60] | Particle Data Group collaboration, C. Patrignani et al., Review of Particle Physics, Chin. Phys.C 40 (2016) 100001 [INSPIRE]. |
| [61] | Intriligator, K.; Sudano, M., General gauge mediation with gauge messengers, JHEP, 06, 047, (2010) · Zbl 1290.81072 · doi:10.1007/JHEP06(2010)047 |
| [62] | Barbieri, R.; Giudice, GF, Upper bounds on supersymmetric particle masses, Nucl. Phys., B 306, 63, (1988) · doi:10.1016/0550-3213(88)90171-X |
| [63] | ATLAS, CMS collaborations, Measurements of the Higgs boson production and decay rates and constraints on its couplings from a combined ATLAS and CMS analysis of the LHC pp collision data at\( \sqrt{s}=7 \)and 8 TeV, JHEP08 (2016) 045 [arXiv:1606.02266] [INSPIRE]. |
| [64] | D. Latham and M. Jaffe, I’m My Own Grandpaw, RCA Records (1947). · Zbl 1388.81969 |
| [65] | H.-C. Cheng, L. Li, E. Salvioni and C.B. Verhaaren, Singlet Scalar Top Partners from Accidental Supersymmetry, to appear (2018). |
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.
