6533b85afe1ef96bd12b8a9a

RESEARCH PRODUCT

Measurement of an excess ofB¯→D(*)τ−ν¯τdecays and implications for charged Higgs bosons

J. P. LeesV. PoireauV. TisserandE. GraugesA. PalanoG. EigenB. StuguD. N. BrownL. T. KerthYu. G. KolomenskyM. LeeG. LynchH. KochT. SchroederC. HeartyT. S. MattisonJ. A. MckennaR. Y. SoA. KhanV. E. BlinovA. R. BuzykaevV. P. DruzhininV. B. GolubevE. A. KravchenkoA. P. OnuchinS. I. SerednyakovYu. I. SkovpenE. P. SolodovK. Yu. TodyshevA. N. YushkovD. KirkbyA. J. LankfordM. MandelkernB. DeyJ. W. GaryO. LongG. M. VitugC. CampagnariM. Franco SevillaT. M. HongD. KovalskyiJ. D. RichmanC. A. WestA. M. EisnerW. S. LockmanA. J. MartinezB. A. SchummA. SeidenD. S. ChaoC. H. ChengB. EchenardK. T. FloodD. G. HitlinP. OngmongkolkulF. C. PorterR. AndreassenZ. HuardB. T. MeadowsM. D. SokoloffL. SunP. C. BloomW. T. FordA. GazU. NauenbergJ. G. SmithS. R. WagnerR. AyadW. H. TokiB. SpaanK. R. SchubertR. SchwierzD. BernardM. VerderiS. PlayferD. BettoniC. BozziR. CalabreseG. CibinettoE. FioravantiI. GarziaE. LuppiL. PiemonteseV. SantoroR. Baldini-ferroliA. CalcaterraR. De SangroG. FinocchiaroS. MartellottiP. PatteriI. M. PeruzziM. PiccoloM. RamaA. ZalloR. ContriE. GuidoM. Lo VetereM. R. MongeS. PassaggioC. PatrignaniE. RobuttiB. BhuyanV. PrasadM. MoriiA. AdametzU. UwerH. M. LackerP. D. DaunceyU. MallikC. ChenJ. CochranW. T. MeyerS. PrellA. E. RubinA. V. GritsanN. ArnaudM. DavierD. DerkachG. GrosdidierF. Le DiberderA. M. LutzB. MalaescuP. RoudeauA. StocchiG. WormserD. J. LangeD. M. WrightJ. P. ColemanJ. R. FryE. GabathulerD. E. HutchcroftD. J. PayneC. TouramanisA. J. BevanF. Di LodovicoR. SaccoG. CowanJ. BougherD. N. BrownC. L. DavisA. G. DenigM. FritschW. GradlK. GriessingerA. HafnerE. PrencipeR. J. BarlowG. D. LaffertyE. BehnR. CenciB. HamiltonA. JawaheryD. A. RobertsR. CowanD. DujmicG. SciollaR. CheaibP. M. PatelS. H. RobertsonP. BiassoniN. NeriF. PalomboL. CremaldiR. GodangP. SonnekD. J. SummersX. NguyenM. SimardP. TarasG. De NardoD. MonorchioG. OnoratoC. SciaccaM. MartinelliG. RavenC. P. JessopJ. M. LoseccoK. HonscheidR. KassJ. BrauR. FreyN. B. SinevD. StromE. TorrenceE. FeltresiM. MargoniM. MorandinM. PosoccoM. RotondoG. SimiF. SimonettoR. StroiliS. AkarE. Ben-haimM. BombenG. R. BonneaudH. BriandG. CalderiniJ. ChauveauPh. LerusteG. MarchioriJ. OcarizS. SittM. BiasiniE. ManoniS. PacettiA. RossiC. AngeliniG. BatignaniS. BettariniM. CarpinelliG. CasarosaA. CervelliF. FortiM. A. GiorgiA. LusianiB. OberhofE. PaoloniA. PerezG. RizzoJ. J. WalshD. Lopes PegnaJ. OlsenA. J. S. SmithR. FacciniF. FerrarottoF. FerroniM. GasperoL. Li GioiG. PireddaC. BüngerO. GrünbergT. HartmannT. LeddigC. VoßR. WaldiT. AdyeE. O. OlaiyaF. F. WilsonS. EmeryG. Hamel De MonchenaultG. VasseurCh. YècheF. AnulliD. AstonD. J. BardJ. F. BenitezC. CartaroM. R. ConveryJ. DorfanG. P. Dubois-felsmannW. DunwoodieM. EbertR. C. FieldB. G. FulsomA. M. GabareenM. T. GrahamC. HastW. R. InnesP. KimM. L. KocianD. W. G. S. LeithP. LewisD. LindemannB. LindquistS. LuitzV. LuthH. L. LynchD. B. MacfarlaneD. R. MullerH. NealS. NelsonM. PerlT. PulliamB. N. RatcliffA. RoodmanA. A. SalnikovR. H. SchindlerA. SnyderD. SuM. K. SullivanJ. Va’vraA. P. WagnerW. F. WangW. J. WisniewskiM. WittgenD. H. WrightH. W. WulsinV. ZieglerW. ParkM. V. PurohitR. M. WhiteJ. R. WilsonA. Randle-condeS. J. SekulaM. BellisP. R. BurchatT. S. MiyashitaE. M. T. PuccioM. S. AlamJ. A. ErnstR. GorodeiskyN. GuttmanD. R. PeimerA. SofferS. M. SpanierJ. L. RitchieA. M. RulandR. F. SchwittersB. C. WrayJ. M. IzenX. C. LouF. BianchiF. De MoriA. FilippiD. GambaS. ZambitoL. LanceriL. VitaleF. Martinez-vidalA. OyangurenP. Villanueva-perezH. AhmedJ. AlbertSw. BanerjeeF. U. BernlochnerH. H. F. ChoiG. J. KingR. KowalewskiM. J. LewczukT. LueckI. M. NugentJ. M. RoneyR. J. SobieN. TasneemT. J. GershonP. F. HarrisonT. E. LathamH. R. BandS. DasuY. PanR. PrepostS. L. Wu

subject

Nuclear and High Energy PhysicsParticle physics010308 nuclear & particles physicsComputer sciencebusiness.industryLibrary science01 natural sciencesBildungResearch councilHospitality0103 physical sciencesHiggs bosonmedia_common.cataloged_instanceChristian ministryRussian federationEuropean union010306 general physicsbusinessmedia_common

description

The concept for this analysis is to a large degree based on earlier BABAR work and we acknowledge the guidance provided by M. Mazur. The authors consulted with theorists A. Datta, S. Westhoff, S. Fajfer, J. Kamenik, and I. Nisandzic on the calculations of the charged Higgs contributions to the decay rates. We are grateful for the extraordinary contributions of our PEP-II colleagues in achieving the excellent luminosity and machine conditions that have made this work possible. The success of this project also relied critically on the expertise and dedication of the computing organizations that support BABAR. The collaborating institutions wish to thank SLAC for its support and the kind hospitality extended to them. This work is supported by the U.S. Department of Energy and National Science Foundation, the Natural Sciences and Engineering Research Council (Canada), the Commissariat a l'Energie Atomique and Institut National de Physique Nucleaire et de Physique des Particules (France), the Bundesministerium fur Bildung und Forschung and Deutsche Forschungsgemeinschaft (Germany), the Istituto Nazionale di Fisica Nucleare (Italy), the Foundation for Fundamental Research on Matter (Netherlands), the Research Council of Norway, the Ministry of Education and Science of the Russian Federation, Ministerio de Economia y Competitividad (Spain), and the Science and Technology Facilities Council (United Kingdom). Individuals have received support from the Marie-Curie IEF program (European Union) and the A. P. Sloan Foundation (USA).

yearjournalcountryeditionlanguage
2013-10-31Physical Review D
https://doi.org/10.1103/physrevd.88.072012