User menu

Accès à distance ? S'identifier sur le proxy UCLouvain

Dilepton signal of a type-II seesaw model at CERN LHC: Reveals a TeV scale B-L symmetry

Primary tabs

Majee, Swarup Kumar [UCL] Sahu, Narendra [Univ Libre Bruxelles, Serv Phys Theor, B-1050 Brussels, Belgium]

We explore the discovery potential of doubly charged Higgs bosons (xi(+/-+/-)) at the CERN Large Hadron Collider (LHC). For moderate values of the coupling constants in the original Type-II seesaw model, these doubly charged Higgs bosons are not accessible at any present or near future collider experiments. In a gauged B - L symmetric model we introduce two triplet scalars to execute a variant of type-II seesaw at the TeV scale. This leads to a clear like-sign dilepton signal in the decay mode of xi(+/-+/-) for a small vacuum expectation value (less than or similar to 10(5) eV) of the triplet scalar xi = (xi(++), xi(+), xi(0)) of mass less than or similar to 1 TeV. To be specific, for a mass range of 200-1000 GeV of xi(+/-+/-), the like-sign dilepton signal can be detected at CERN LHC at a center of mass energy 14 TeV with an integrated luminosity, say, greater than or similar to 30 fb(-1). The same analysis is also pursued with center of mass energies 7 TeV and 10 TeV as well. We also comment on the decay mode of singly charged scalars and the neutral B - L gauge boson in this model.

Document type Article de périodique (Journal article) – Article de recherche
Publication date 2010
Language Anglais
Journal information "Physical Review. D, Particles, Fields, Gravitation and Cosmology" - Vol. 82, no. 5 (2010)
Peer reviewed yes
Publisher Amer Physical Soc (College Pk)
issn 1550-7998
e-issn 1089-4918
Publication status Publié
Affiliation UCL - SC/PHYS - Département de physique
Links
  1. Weinberg Steven, Baryon- and Lepton-Nonconserving Processes, 10.1103/physrevlett.43.1566
  2. Ma Ernest, Pathways to Naturally Small Neutrino Masses, 10.1103/physrevlett.81.1171
  3. Minkowski Peter, μ→eγ at a rate of one out of 109 muon decays?, 10.1016/0370-2693(77)90435-x
  4. M. Gell-Mann, Supergravity (1980)
  5. T. Yanagida, Proceedings of the Workshop on the Unified Theory and the Baryon Number of the Universe (1979)
  6. Mohapatra Rabindra N., Senjanović Goran, Neutrino Mass and Spontaneous Parity Nonconservation, 10.1103/physrevlett.44.912
  7. Babu K. S., Nandi S., Tavartkiladze Zurab, New mechanism for neutrino mass generation and triply charged Higgs bosons at the LHC, 10.1103/physrevd.80.071702
  8. Bonnet F, Hernandez D, Ota T, Winter W, Neutrino masses from higher thand= 5 effective operators, 10.1088/1126-6708/2009/10/076
  9. I. Gogoladze, Phys. Lett. B, 672, 235 (2009)
  10. Picek Ivica, Radovčić Branimir, Novel TeV-scale seesaw mechanism with Dirac mediators, 10.1016/j.physletb.2010.03.062
  11. Mohapatra Rabindra N., Mechanism for understanding small neutrino mass in superstring theories, 10.1103/physrevlett.56.561
  12. Mohapatra R. N., Valle J. W. F., Neutrino mass and baryon-number nonconservation in superstring models, 10.1103/physrevd.34.1642
  13. Cogollo D., Diniz H., de S. Pires C.A., Triple seesaw mechanism, 10.1016/j.physletb.2010.03.066
  14. Foot R., Lew H., He X. -G., Joshi G. C., See-saw neutrino masses induced by a triplet of leptons, 10.1007/bf01415558
  15. Ma Ernest, Pathways to Naturally Small Neutrino Masses, 10.1103/physrevlett.81.1171
  16. Franceschini Roberto, Hambye Thomas, Strumia Alessandro, Type-III seesaw mechanism at CERN LHC, 10.1103/physrevd.78.033002
  17. Magg M., Wetterich Ch., Neutrino mass problem and gauge hierarchy, 10.1016/0370-2693(80)90825-4
  18. Cheng T. P., Li Ling-Fong, Neutrino masses, mixings, and oscillations in SU(2)×U(1) models of electroweak interactions, 10.1103/physrevd.22.2860
  19. Gelmini G.B., Roncadelli M., Left-handed neutrino mass scale and spontaneously broken lepton number, 10.1016/0370-2693(81)90559-1
  20. Lazarides G., Shafi Q., Wetterich C., Proton lifetime and fermion masses in an SO(10) model, 10.1016/0550-3213(81)90354-0
  21. Mohapatra Rabindra N., Senjanović Goran, Neutrino masses and mixings in gauge models with spontaneous parity violation, 10.1103/physrevd.23.165
  22. Schechter J., Valle J. W. F., Neutrino masses in SU(2) ⊗ U(1) theories, 10.1103/physrevd.22.2227
  23. Ma Ernest, Sarkar Utpal, Neutrino Masses and Leptogenesis with Heavy Higgs Triplets, 10.1103/physrevlett.80.5716
  24. Akeroyd A. G., Aoki Mayumi, Sugiyama Hiroaki, Probing Majorana phases and the neutrino mass spectrum in the Higgs triplet model at the CERN LHC, 10.1103/physrevd.77.075010
  25. Garayoa Julia, Schwetz Thomas, Neutrino mass hierarchy and Majorana CP phases within the Higgs triplet model at the LHC, 10.1088/1126-6708/2008/03/009
  26. Chun Eung Jin, Lee Kang Young, Park Seong Chan, Testing Higgs triplet model and neutrino mass patterns, 10.1016/s0370-2693(03)00770-6
  27. Kadastik M., Raidal M., Rebane L., Direct determination of neutrino mass parameters at future colliders, 10.1103/physrevd.77.115023
  28. Fileviez Pérez Pavel, Han Tao, Huang Guiyu, Li Tong, Wang Kai, Neutrino masses and the CERN LHC: Testing the type II seesaw mechanism, 10.1103/physrevd.78.015018
  29. McDonald John, Sahu Narendra, Sarkar Utpal, Type-II seesaws at colliders, lepton asymmetry and singlet scalar dark matter, 10.1088/1475-7516/2008/04/037
  30. Sahu Narendra, Sarkar Utpal, Predictive model for dark matter, dark energy, neutrino masses, and leptogenesis at the TeV scale, 10.1103/physrevd.76.045014
  31. Ma Ernest, Naturally Small Seesaw Neutrino Mass with No New Physics Beyond the TeV Scale, 10.1103/physrevlett.86.2502
  32. Chao Wei, Si Zong-guo, Zheng Ya-juan, Zhou Shun, Testing the realistic seesaw model with two heavy Majorana neutrinos at the CERN Large Hadron Collider, 10.1016/j.physletb.2009.11.059
  33. Haba Naoyuki, Matsumoto Shigeki, Yoshioka Koichi, Observable seesaw and its collider signatures, 10.1016/j.physletb.2009.05.042
  34. Majee Swarup Kumar, Parida Mina K., Raychaudhuri Amitava, Neutrino mass and low-scale leptogenesis in a testable SUSY SO(10) model, 10.1016/j.physletb.2008.08.048
  35. Majee Swarup Kumar, Parida Mina K., Raychaudhuri Amitava, Sarkar Utpal, Low intermediate scales for leptogenesis in supersymmetricSO(10)grand unified theories, 10.1103/physrevd.75.075003
  36. Sahu Narendra, Yajnik Urjit A., GaugedB−Lsymmetry and baryogenesis via leptogenesis at TeV scale, 10.1103/physrevd.71.023507
  37. Dev P. S. Bhupal, Mohapatra R. N., TeV scale inverse seesaw model inSO(10)and leptonic nonunitarity effects, 10.1103/physrevd.81.013001
  38. Xing Zhi-zhong, Zhou Shun, Multiple seesaw mechanisms of neutrino masses at the TeV scale, 10.1016/j.physletb.2009.07.051
  39. Aoki Mayumi, Kanemura Shinya, Seto Osamu, Model of TeV scale physics for neutrino mass, dark matter, and baryon asymmetry and its phenomenology, 10.1103/physrevd.80.033007
  40. Ren Ping, Xing Zhi-zhong, Interference bands in decays of doubly-charged Higgs bosons to dileptons in the minimal type-II seesaw model at the TeV scale, 10.1016/j.physletb.2008.06.059
  41. Cho Gi-Chol, Kaneko Satoru, Omote Aya, Decay of charged Higgs boson in a scenario of SUSY breaking inspired neutrino mass, 10.1016/j.physletb.2007.07.024
  42. Chun Eung Jin, Scopel Stefano, Analysis of leptogenesis in a supersymmetric triplet seesaw model, 10.1103/physrevd.75.023508
  43. King S. F., Yanagida T., Testing the See-Saw Mechanism at Collider Energies, 10.1143/ptp.114.1035
  44. Sarkar Anjishnu, Yajnik Urjit A., Cosmology in a supersymmetric model with gaugedB−Lsymmetry, 10.1103/physrevd.76.025001
  45. Huitu Katri, Khalil Shaaban, Okada Hiroshi, Rai Santosh Kumar, Signatures for Right-Handed Neutrinos at the Large Hadron Collider, 10.1103/physrevlett.101.181802
  46. Carena Marcela, Daleo Alejandro, Dobrescu Bogdan A., Tait Tim M. P., Z′gauge bosons at the Fermilab Tevatron, 10.1103/physrevd.70.093009
  47. Barger Vernon, Langacker Paul, Lee Hye-Sung, Six-LeptonZ′Resonance at the Large Hadron Collider, 10.1103/physrevlett.103.251802
  48. Emam W., Khalil S., Higgs and Z′ phenomenology in B–L extension of the standard model at LHC, 10.1140/epjc/s10052-007-0411-7
  49. Chen Mu-Chun, Huang Jinrui, TeV scale seesaw model and a flavorfulZ′at the LHC, 10.1103/physrevd.81.055007
  50. Chun Eung Jin, TeV leptogenesis in supersymmetricZ-prime models and its collider probe, 10.1103/physrevd.72.095010
  51. Aaltonen T., Adelman J., Akimoto T., Álvarez González B., Amerio S., Amidei D., Anastassov A., Annovi A., Antos J., Apollinari G., Apresyan A., Arisawa T., Artikov A., Ashmanskas W., Attal A., Aurisano A., Azfar F., Azzurri P., Badgett W., Barbaro-Galtieri A., Barnes V. E., Barnett B. A., Bartsch V., Bauer G., Beauchemin P.-H., Bedeschi F., Beecher D., Behari S., Bellettini G., Bellinger J., Benjamin D., Beretvas A., Beringer J., Bhatti A., Binkley M., Bisello D., Bizjak I., Blair R. E., Blocker C., Blumenfeld B., Bocci A., Bodek A., Boisvert V., Bolla G., Bortoletto D., Boudreau J., Boveia A., Brau B., Bridgeman A., Brigliadori L., Bromberg C., Brubaker E., Budagov J., Budd H. S., Budd S., Burke S., Burkett K., Busetto G., Bussey P., Buzatu A., Byrum K. L., Cabrera S., Calancha C., Campanelli M., Campbell M., Canelli F., Canepa A., Carls B., Carlsmith D., Carosi R., Carrillo S., Carron S., Casal B., Casarsa M., Castro A., Catastini P., Cauz D., Cavaliere V., Cavalli-Sforza M., Cerri A., Cerrito L., Chang S. H., Chen Y. C., Chertok M., Chiarelli G., Chlachidze G., Chlebana F., Cho K., Chokheli D., Chou J. P., Choudalakis G., Chuang S. H., Chung K., Chung W. H., Chung Y. S., Chwalek T., Ciobanu C. I., Ciocci M. A., Clark A., Clark D., Compostella G., Convery M. E., Conway J., Cordelli M., Cortiana G., Cox C. A., Cox D. J., Crescioli F., Cuenca Almenar C., Cuevas J., Culbertson R., Cully J. C., Dagenhart D., Datta M., Davies T., de Barbaro P., De Cecco S., Deisher A., De Lorenzo G., Dell’Orso M., Deluca C., Demortier L., Deng J., Deninno M., Derwent P. F., di Giovanni G. P., Dionisi C., Di Ruzza B., Dittmann J. R., D’Onofrio M., Donati S., Dong P., Donini J., Dorigo T., Dube S., Efron J., Elagin A., Erbacher R., Errede D., Errede S., Eusebi R., Fang H. C., Farrington S., Fedorko W. T., Feild R. G., Feindt M., Fernandez J. P., Ferrazza C., Field R., Flanagan G., Forrest R., Frank M. J., Franklin M., Freeman J. C., Furic I., Gallinaro M., Galyardt J., Garberson F., Garcia J. E., Garfinkel A. F., Genser K., Gerberich H., Gerdes D., Gessler A., Giagu S., Giakoumopoulou V., Giannetti P., Gibson K., Gimmell J. L., Ginsburg C. M., Giokaris N., Giordani M., Giromini P., Giunta M., Giurgiu G., Glagolev V., Glenzinski D., Gold M., Goldschmidt N., Golossanov A., Gomez G., Gomez-Ceballos G., Goncharov M., González O., Gorelov I., Goshaw A. T., Goulianos K., Gresele A., Grinstein S., Grosso-Pilcher C., Group R. C., Grundler U., Guimaraes da Costa J., Gunay-Unalan Z., Haber C., Hahn K., Hahn S. R., Halkiadakis E., Han B.-Y., Han J. Y., Happacher F., Hara K., Hare D., Hare M., Harper S., Harr R. F., Harris R. M., Hartz M., Hatakeyama K., Hays C., Heck M., Heijboer A., Heinrich J., Henderson C., Herndon M., Heuser J., Hewamanage S., Hidas D., Hill C. S., Hirschbuehl D., Hocker A., Hou S., Houlden M., Hsu S.-C., Huffman B. T., Hughes R. E., Husemann U., Hussein M., Husemann U., Huston J., Incandela J., Introzzi G., Iori M., Ivanov A., James E., Jayatilaka B., Jeon E. J., Jha M. K., Jindariani S., Johnson W., Jones M., Joo K. K., Jun S. Y., Jung J. E., Junk T. R., Kamon T., Kar D., Karchin P. E., Kato Y., Kephart R., Keung J., Khotilovich V., Kilminster B., Kim D. H., Kim H. S., Kim H. W., Kim J. E., Kim M. J., Kim S. B., Kim S. H., Kim Y. K., Kimura N., Kirsch L., Klimenko S., Knuteson B., Ko B. R., Kondo K., Kong D. J., Konigsberg J., Korytov A., Kotwal A. V., Kreps M., Kroll J., Krop D., Krumnack N., Kruse M., Krutelyov V., Kubo T., Kuhr T., Kulkarni N. P., Kurata M., Kwang S., Laasanen A. T., Lami S., Lammel S., Lancaster M., Lander R. L., Lannon K., Lath A., Latino G., Lazzizzera I., LeCompte T., Lee E., Lee H. S., Lee S. W., Leone S., Lewis J. D., Lin C.-S., Linacre J., Lindgren M., Lipeles E., Lister A., Litvintsev D. O., Liu C., Liu T., Lockyer N. S., Loginov A., Loreti M., Lovas L., Lucchesi D., Luci C., Lueck J., Lujan P., Lukens P., Lungu G., Lyons L., Lys J., Lysak R., MacQueen D., Madrak R., Maeshima K., Makhoul K., Maki T., Maksimovic P., Malde S., Malik S., Manca G., Manousakis-Katsikakis A., Margaroli F., Marino C., Marino C. P., Martin A., Martin V., Martínez M., Martínez-Ballarín R., Maruyama T., Mastrandrea P., Masubuchi T., Mathis M., Mattson M. E., Mazzanti P., McFarland K. S., McIntyre P., McNulty R., Mehta A., Mehtala P., Menzione A., Merkel P., Mesropian C., Miao T., Miladinovic N., Miller R., Mills C., Milnik M., Mitra A., Mitselmakher G., Miyake H., Moggi N., Moon C. S., Moore R., Morello M. J., Morlok J., Movilla Fernandez P., Mülmenstädt J., Mukherjee A., Muller Th., Mumford R., Murat P., Mussini M., Nachtman J., Nagai Y., Nagano A., Naganoma J., Nakamura K., Nakano I., Napier A., Necula V., Nett J., Neu C., Neubauer M. S., Neubauer S., Nielsen J., Nodulman L., Norman M., Norniella O., Nurse E., Oakes L., Oh S. H., Oh Y. D., Oksuzian I., Okusawa T., Orava R., Pagan Griso S., Palencia E., Papadimitriou V., Papaikonomou A., Paramonov A. A., Parks B., Pashapour S., Patrick J., Pauletta G., Paulini M., Paus C., Peiffer T., Pellett D. E., Penzo A., Phillips T. J., Piacentino G., Pianori E., Pinera L., Pitts K., Plager C., Pondrom L., Poukhov O., Pounder N., Prakoshyn F., Pronko A., Proudfoot J., Ptohos F., Pueschel E., Punzi G., Pursley J., Rademacker J., Rahaman A., Ramakrishnan V., Ranjan N., Redondo I., Renton P., Renz M., Rescigno M., Richter S., Rimondi F., Ristori L., Robson A., Rodrigo T., Rodriguez T., Rogers E., Rolli S., Roser R., Rossi M., Rossin R., Roy P., Ruiz A., Russ J., Rusu V., Safonov A., Sakumoto W. K., Saltó O., Santi L., Sarkar S., Sartori L., Sato K., Savoy-Navarro A., Schlabach P., Schmidt A., Schmidt E. E., Schmidt M. A., Schmidt M. P., Schmitt M., Schwarz T., Scodellaro L., Scribano A., Scuri F., Sedov A., Seidel S., Seiya Y., Semenov A., Sexton-Kennedy L., Sforza F., Sfyrla A., Shalhout S. Z., Shears T., Shepard P. F., Shimojima M., Shiraishi S., Shochet M., Shon Y., Shreyber I., Sidoti A., Sinervo P., Sisakyan A., Slaughter A. J., Slaunwhite J., Sliwa K., Smith J. R., Snider F. D., Snihur R., Soha A., Somalwar S., Sorin V., Spalding J., Spreitzer T., Squillacioti P., Stanitzki M., St. Denis R., Stelzer B., Stelzer-Chilton O., Stentz D., Strologas J., Strycker G. L., Stuart D., Suh J. S., Sukhanov A., Suslov I., Suzuki T., Taffard A., Takashima R., Takeuchi Y., Tanaka R., Tecchio M., Teng P. K., Terashi K., Thom J., Thompson A. S., Thompson G. A., Thomson E., Tipton P., Ttito-Guzmán P., Tkaczyk S., Toback D., Tokar S., Tollefson K., Tomura T., Tonelli D., Torre S., Torretta D., Totaro P., Tourneur S., Trovato M., Tsai S.-Y., Tu Y., Turini N., Ukegawa F., Vallecorsa S., van Remortel N., Varganov A., Vataga E., Vázquez F., Velev G., Vellidis C., Veszpremi V., Vidal M., Vidal R., Vila I., Vilar R., Vine T., Vogel M., Volobouev I., Volpi G., Wagner P., Wagner R. G., Wagner R. L., Wagner W., Wagner-Kuhr J., Wakisaka T., Wallny R., Wang S. M., Warburton A., Waters D., Weinberger M., Weinelt J., Wester W. C., Whitehouse B., Whiteson D., Wicklund A. B., Wicklund E., Wilbur S., Williams G., Williams H. H., Wilson P., Winer B. L., Wittich P., Wolbers S., Wolfe C., Wright T., Wu X., Würthwein F., Wynne S. M., Xie S., Yagil A., Yamamoto K., Yamaoka J., Yang U. K., Yang Y. C., Yao W. M., Yeh G. P., Yoh J., Yorita K., Yoshida T., Yu G. B., Yu I., Yu S. S., Yun J. C., Zanello L., Zanetti A., Zhang X., Zheng Y., Zucchelli S., Search for High-Mass Resonances Decaying to Dimuons at CDF, 10.1103/physrevlett.102.091805
  52. Schwetz Thomas, Tórtola Mariam, Valle José W F, Three-flavour neutrino oscillation update, 10.1088/1367-2630/10/11/113011
  53. Amsler C., Doser M., Antonelli M., Asner D.M., Babu K.S., Baer H., Band H.R., Barnett R.M., Bergren E., Beringer J., Bernardi G., Bertl W., Bichsel H., Biebel O., Bloch P., Blucher E., Blusk S., Cahn R.N., Carena M., Caso C., Ceccucci A., Chakraborty D., Chen M.-C., Chivukula R.S., Cowan G., Dahl O., D'Ambrosio G., Damour T., de Gouvêa A., DeGrand T., Dobrescu B., Drees M., Edwards D.A., Eidelman S., Elvira V.D., Erler J., Ezhela V.V., Feng J.L., Fetscher W., Fields B.D., Foster B., Gaisser T.K., Garren L., Gerber H.-J., Gerbier G., Gherghetta T., Giudice G.F., Goodman M., Grab C., Gritsan A.V., Grivaz J.-F., Groom D.E., Grünewald M., Gurtu A., Gutsche T., Haber H.E., Hagiwara K., Hagmann C., Hayes K.G., Hernández-Rey J.J., Hikasa K., Hinchliffe I., Höcker A., Huston J., Igo-Kemenes P., Jackson J.D., Johnson K.F., Junk T., Karlen D., Kayser B., Kirkby D., Klein S.R., Knowles I.G., Kolda C., Kowalewski R.V., Kreitz P., Krusche B., Kuyanov Yu.V., Kwon Y., Lahav O., Langacker P., Liddle A., Ligeti Z., Lin C.-J., Liss T.M., Littenberg L., Liu J.C., Lugovsky K.S., Lugovsky S.B., Mahlke H., Mangano M.L., Mannel T., Manohar A.V., Marciano W.J., Martin A.D., Masoni A., Milstead D., Miquel R., Mönig K., Murayama H., Nakamura K., Narain M., Nason P., Navas S., Nevski P., Nir Y., Olive K.A., Pape L., Patrignani C., Peacock J.A., Piepke A., Punzi G., Quadt A., Raby S., Raffelt G., Ratcliff B.N., Renk B., Richardson P., Roesler S., Rolli S., Romaniouk A., Rosenberg L.J., Rosner J.L., Sachrajda C.T., Sakai Y., Sarkar S., Sauli F., Schneider O., Scott D., Seligman W.G., Shaevitz M.H., Sjöstrand T., Smith J.G., Smoot G.F., Spanier S., Spieler H., Stahl A., Stanev T., Stone S.L., Sumiyoshi T., Tanabashi M., Terning J., Titov M., Tkachenko N.P., Törnqvist N.A., Tovey D., Trilling G.H., Trippe T.G., Valencia G., van Bibber K., Vincter M.G., Vogel P., Ward D.R., Watari T., Webber B.R., Weiglein G., Wells J.D., Whalley M., Wheeler A., Wohl C.G., Wolfenstein L., Womersley J., Woody C.L., Workman R.L., Yamamoto A., Yao W.-M., Zenin O.V., Zhang J., Zhu R.-Y., Zyla P.A., Harper G., Lugovsky V.S., Schaffner P., Review of Particle Physics, 10.1016/j.physletb.2008.07.018
  54. Lavoura L., General formulae for $f_1 \to f_2 \gamma$, 10.1140/epjc/s2003-01212-7
  55. Akeroyd A. G., Aoki Mayumi, Sugiyama Hiroaki, Lepton flavor violating decaysτ→l¯llandμ→eγin the Higgs triplet model, 10.1103/physrevd.79.113010
  56. Akeroyd A. G., Aoki Mayumi, Single and pair production of doubly charged Higgs bosons at hadron colliders, 10.1103/physrevd.72.035011
  57. Huitu K., Maalampi J., Pietilä A., Raidal M., Doubly charged Higgs at LHC, 10.1016/s0550-3213(97)87466-4
  58. Ma Ernest, Raidal Martti, Sarkar Utpal, Phenomenology of the neutrino-mass-giving Higgs triplet and the low-energy seesaw violation of lepton number, 10.1016/s0550-3213(01)00416-3
  59. Hektor A., Kadastik M., Müntel M., Raidal M., Rebane L., Testing neutrino masses in little Higgs models via discovery of doubly charged Higgs at LHC, 10.1016/j.nuclphysb.2007.07.014
  60. Rommerskirchen T, Hebbeker T, Study of pair-produced doubly charged Higgs bosons with a four-muon final state with the CMS detector, 10.1088/0954-3899/34/3/n01
  61. Azuelos G, Benslama K, Ferland J, Prospects for the search for a doubly charged Higgs in the left–right symmetric model with ATLAS, 10.1088/0954-3899/32/2/002
  62. del Aguila F., Aguilar-Saavedra J.A., Distinguishing seesaw models at LHC with multi-lepton signals, 10.1016/j.nuclphysb.2008.12.029
  63. Dion B., Grégoire T., London D., Marleau L., Nadeau H., Bilepton production at hadron colliders, 10.1103/physrevd.59.075006
  64. Mühlleitner Margarete, Spira Michael, Note on doubly charged Higgs boson pair production at hadron colliders, 10.1103/physrevd.68.117701
  65. Han Tao, Mukhopadhyaya Biswarup, Si Zongguo, Wang Kai, Pair production of doubly charged scalars: Neutrino mass constraints and signals at the CERN LHC, 10.1103/physrevd.76.075013
  66. Pumplin Jonathan, Stump Daniel Robert, Huston Joey, Lai Hung-Liang, Nadolsky Pavel, Tung Wu-Ki, New Generation of Parton Distributions with Uncertainties from Global QCD Analysis, 10.1088/1126-6708/2002/07/012
  67. Maltoni Fabio, Stelzer Tim, MadEvent: automatic event generation with MadGraph, 10.1088/1126-6708/2003/02/027
Bibliographic reference Majee, Swarup Kumar ; Sahu, Narendra. Dilepton signal of a type-II seesaw model at CERN LHC: Reveals a TeV scale B-L symmetry. In: Physical Review. D, Particles, Fields, Gravitation and Cosmology, Vol. 82, no. 5 (2010)
Permanent URL http://hdl.handle.net/2078.1/34377