6533b7d9fe1ef96bd126c450
RESEARCH PRODUCT
A Search for Single Photon Events in Neutrino Interactions
C. JosephF. SalvatoreD. GeppertP.w. CattaneoAnte LjubičićValerio VercesiDmitry V. NaumovMarco LavederTh. StolarczykJ-p. MeyerCaroline PoulsenA.m. ScottK. BenslamaE. PennacchioN. HyettMarco FraternaliLuca RebuffiD. PollmannJ. A. HernandoL.j. WintonA. LanzaArtem ChukanovM. E. SeviorJ. UlrichsKevin VarvellJ. KokkonenM. T. TranJ. LongM. MezzettoQ. WuO.l. KlimovJ.-p. MendiburuE. TsesmelisCaren HagnerKai ZuberG. SozziU. StieglerAlexey KrasnoperovA.-m. TouchardA. Cervera-villanuevaK. SchahmanecheC.t. KullenbergP. HurstT. SchmidtE. GanglerE. GanglerA. GrantH. PessardP. NedelecRoberto FerrariL. Di LellaH. DegaudenziM. Baldo-ceolinM. BannerG. J. FeldmanG. F. MoorheadMalcolm EllisA. KovzelevM. Valdata-nappiDidier FerrereJ.j. Gómez-cadenasV. FlaminioMikhail KirsanovR. CousinsF. J. P. SolerF. J. P. SolerAlessandro CardiniYu. NefedovL. VacavantJ.-m. VieiraAlexander ToropinL. S. PeakC. LachaudJ.m. GaillardT. WeisseF. BobisutJ.j. KimGiacomo GrazianiA. Letessier-selvonJ. GossetSergei GninenkoGiacomo PoleselloE. Do Couto E SilvaAndré RubbiaAndré RubbiaG. BassompierreBruce YabsleyX. MéchainAntonio BuenoAntonio BuenoM. Tareb-reyesT. VinogradovaD. GibinG. CollazuolMario StipčevićA. PlacciR. PettiR. ChallisE. IacopiniA. GodleyA. PolyarushA. De SantoA. De SantoS.a. BunyatovS. BoydJ. DumarchezVyacheslav ValuevAchim GeiserAchim GeiserVincenzo CavasinniB. LakićG. N. TaylorMichel GouanèreC. ContaB. SchmidtB. SchmidtJ. BouchezO. SamoylovF. MartelliM. VeltriF. VannucciM.b. SeatonClaus GößlingG. ConfortoG. ConfortoN. KentA. LupiV. V. LyubushkinV. TereshchenkoA. BaldisseriD. SteeleD. SteeleBarry BlumenfeldDomizia OrestanoP. ZucconG. Vidal-sitjesDrew DimmeryM. ContalbrigoA. MarchionniJ. M. LevySergey A. KulaginJ. RicoA. SconzaFrédéric JugetChiara RodaChiara RodaL. La RotondaS. R. MishraStefano LacapraraFergus WilsonP. RiemannB. A. PopovL. CamilleriS.n. ToveyS.n. ToveyI. BirdI. BirdX.c. TianFr PastoreL. LinssenSergey AlekhinF.v. WeberF.v. WeberC. Nguyen-mauT. Del PreteP. AstierD. AutieroD. SillouA. GuglielmiNathalie BessonH. Zacconesubject
Nuclear and High Energy PhysicsParticle physicsPhotonFOS: Physical sciences01 natural sciencesHigh Energy Physics - ExperimentNuclear physicsMiniBooNENeutral currentHigh Energy Physics - Experiment (hep-ex)PionHigh Energy Physics - Phenomenology (hep-ph)0103 physical sciencesNeutrino[PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex]Coherent; Neutral current; Neutrino; Pion; Single photon; Nuclear and High Energy Physics010306 general physicsCharged currentPhysicsSingle photon; Neutrino; Neutral current; Coherent; PionNeutral current010308 nuclear & particles physicsFísicaDeep inelastic scatteringsingle photon; neutrino; neutral current; coherent; pionHigh Energy Physics - Phenomenology[PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph]PionHigh Energy Physics::ExperimentSingle photonNeutrinoCoherentEvent (particle physics)Particle Physics - Experimentdescription
We present a search for neutrino induced events containing a single, exclusive photon using data from the NOMAD experiment at the CERN SPS where the average energy of the neutrino flux is ≃25 GeV. The search is motivated by an excess of electron-like events in the 200-475 MeV energy region as reported by the MiniBooNE experiment. In NOMAD, photons are identified via their conversion to e + e - in an active target embedded in a magnetic field. The background to the single photon signal is dominated by the asymmetric decay of neutral pions produced either in a coherent neutrino-nucleus interaction, or in a neutrino-nucleon neutral current deep inelastic scattering, or in an interaction occurring outside the fiducial volume. All three backgrounds are determined in situ using control data samples prior to opening the 'signal-box'. In the signal region, we observe 155 events with a predicted background of 129.2±8.5±3.3. We interpret this as null evidence for excess of single photon events, and set a limit. Assuming that the hypothetical single photon has a momentum distribution similar to that of a photon from the coherent π 0 decay, the measurement yields an upper limit on single photon events, <4.0×10 -4 per ν μ charged current event. Narrowing the search to events where the photon is approximately collinear with the incident neutrino, we observe 78 events with a predicted background of 76.6±4.9±1.9 yielding a more stringent upper limit, <1.6×10 -4 per ν μ charged current event.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-11-15 |