6533b7d2fe1ef96bd125ea46

RESEARCH PRODUCT

Precise Measurement of the Neutron Magnetic Form FactorGMnin the Few-GeV2Region

R. J. FeuerbachJ. P. CummingsL. C. SmithE. MunevarR. De MasiD. KellerM. KossovB. S. IshkhanovI. PopaK. S. EgiyanG. RiccoK. MikhailovL. ChengM. KhandakerM. GarçonJ. ShawMichael WoodP. Nadel-turonskiNikolay ShvedunovM. R. NiroulaK. HafidiR. NasseripourR. NasseripourR. NasseripourS. McaleerFriedrich KleinFriedrich KleinFriedrich KleinB. P. QuinnBrian RaueBrian RaueV. S. SerovL. CaseyF. X. GirodSusan TaylorMarco A. HuertasM. LowryV. SapunenkoD. P. WattsD. P. WattsL. C. DennisB. E. BonnerHartmuth ArenhövelDinko PocanicH. EgiyanH. EgiyanR. G. FerschH. AvakianD. DoughtyD. DoughtyB. B. NiczyporukG. S. AdamsS. ParkD. SharovN. KalantariansP. L. ColeP. L. ColeSylvain BouchignySabine JeschonnekR. C. MinehartKei MoriyaD. HeddleD. HeddleP. RossiJ. LachnietJ. LachnietH. G. JuengstH. G. JuengstC. A. MeyerN. PivnyukK. JooK. JooW. J. BriscoeB. L. BermanA. TkabladzeA. TkabladzeG. V. FedotovE. PasyukD. RowntreeA. ColemanA. ColemanL. M. QinM. Y. GabrielyanS. E. KuhnS. A. DytmanV. CredeY. IlievaJ. R. CalarcoT. MineevaJ. W. PriceM. J. AmaryanC. PatersonS. StrauchM. MaccormickA.v. StavinskyM. KlusmanI. HleiqawiV. P. KubarovskyK. P. AdhikariS. L. CarecciaA. EmplL. El FassiO. PogorelkoB. MorenoD. P. WeygandJ. SalamancaR. SuleimanM. E. MccrackenElton SmithK. L. GiovanettiB. AsavapibhopG. V. O'riellyTsutomu MibeLarry WeinsteinZ. W. ZhaoJ. W C McnabbD. J. TedeschiD. ProtopopescuD. ProtopopescuD. G. JenkinsBarry RitchieM. AnghinolfiJames MuellerS. MalaceS. A. MorrowP. RubinP. RubinI. BedlinskiyG. S. MutchlerKonstantin StopaniS. PozdniakovV. GyurjyanM. M. ItoC. DjalaliY. G. SharabianG. RosnerT. KageyaK. LivingstonD. S. DaleX. WeiR. DicksonV. KuznetsovC. E. Hyde-wrightH. DenizliN. GulerN. A. BaltzellP. MattioneK. A. GriffioenM. S. SainiA. V. SkabelinP. DragovitschJ. ZhangS. BarrowE. De SanctisS. NiccolaiJ. T. GoetzE. PolliH. BagdasaryanR. A. MiskimenJ. D. KellieB. MckinnonSergey KuleshovM. BektasogluM. BektasogluJ. HardieJ. HardieM. NozarW. KimLaird KramerLaird KramerG. NiculescuG. NiculescuD. I. SoberD. BranfordM. GuidalR. A. SchumacherH. HakobyanH. HakobyanM. MirazitaP. KhetarpalC. HanrettyJ. M. LagetM. HoltropVictor MokeevVictor MokeevL. GrahamJ. R. JohnstoneN. GevorgyanL. GuoL. GuoM. UngaroM. UngaroM. OsipenkoF. SabatiéA. DanielK. BeardKalvir S. DhugaS. BültmannA. I. OstrovidovJ. YunD. CordsV. BatourineV. BatourineT. A. ForestT. A. ForestA. YegneswaranA. C S LimaA. SandorfiK. ParkK. ParkR. FatemiS. StepanyanA. V. VlassovD. G. IrelandVolker D. BurkertA. S. BiselliJ. PierceAvraham KleinB. ZhaoJ. LangheinrichR. De VitaA. FradiS. S. StepanyanS. A. PhilipsWilliam BrooksN. MarkovP. KonczykowskiB. E. StokesJ. J. ManakS. Anefalos PereiraG. E. DodgeH. Y. LuN. DashyanMaryam MoteabbedP. V. DegtyarenkoK. V. DharmawardaneI. NiculescuI. NiculescuD. LawrenceD. SchottF. W. HersmanM. BattaglieriN. BaillieP. StolerK. HicksG. AsryanO. P. DzyubakR. A. NiyazovR. A. NiyazovP. CorvisieroR. BradfordB. A. MeckingK. LukashinK. LukashinE. WolinGerard GilfoyleM. GuilloD. SokhanW. GohnN. HassallM. BellisE. GolovatchJ. P. BallJ. HuY. ProkY. ProkD. S. CarmanS. DhamijaM. D. MestayerL. ElouadrhiriL. ElouadrhiriI. I. StrakovskyE. L. IsupovR. W. GotheG. GavalianG. GavalianS. TkachenkoA. DeurMichael L. WilliamsJ. KuhnN. BenmounaJ. P. SantoroAndrei AfanasevM. RipaniD. G. CrabbK. Y. KimRoy ThompsonCynthia Marie HadjidakisS. BoiarinovMichael DuggerB. M. PreedomDouglas HiginbothamM. YurovLorenzo ZanaH. S. JoC. BookwalterC. SalgadoKwangsoo KimG. RiccardiP. EugenioA. StarostinM. TaiutiMichael VineyardP. Collins

subject

Physics010308 nuclear & particles physicsScatteringNuclear TheoryGeneral Physics and AstronomyScintillator7. Clean energy01 natural sciencesNuclear physicsDipoleDeuterium0103 physical sciencesMagnetic form factorNeutron detectionHigh Energy Physics::ExperimentNeutronNuclear Experiment010306 general physicsElectron scattering

description

The neutron elastic magnetic form factor was extracted from quasielastic electron scattering on deuterium over the range Q;{2}=1.0-4.8 GeV2 with the CLAS detector at Jefferson Lab. High precision was achieved with a ratio technique and a simultaneous in situ calibration of the neutron detection efficiency. Neutrons were detected with electromagnetic calorimeters and time-of-flight scintillators at two beam energies. The dipole parametrization gives a good description of the data.

yearjournalcountryeditionlanguage
2009-05-12Physical Review Letters
https://doi.org/10.1103/physrevlett.102.192001