6533b7d8fe1ef96bd12696b7

RESEARCH PRODUCT

Measurement of the D*(2010)+−D+ Mass Difference

W. R. InnesA. RoodmanAbner SofferS. BettariniG. WormserJ. L. RitchieJ. DorfanRoland WaldiJ. A. MckennaE. PaoloniF. FerroniA. M. LutzW. J. WisniewskiT. SchroederC. H. ChenG. J. KingR. GodangG. FinocchiaroDouglas WrightPaul Fraser HarrisonR. GorodeiskyD. A. RobertsR. Y. SoS. PassaggioC. BüngerS. M. SpanierJu-young KimP. OngmongkolkulJ. J. WalshD. N. BrownZ. C. HuardW. Panduro VazquezA. JawaheryE. FioravantiA. HafnerE. M. T. PuccioJames R. WilsonR. CalabreseA. FilippiP. TarasE. P. SolodovFlorian Urs BernlochnerM. VerderiStephen Robert WagnerM. K. SullivanF. F. WilsonF. PalomboT. LueckElisa ManoniC. H. ChengL. M. CremaldiD. AstonM. HeßB. OberhofG. D. LaffertyS. MartellottiU. MallikR. F. SchwittersR. De SangroW. S. LockmanA. P. OnuchinM. RotondoJ. ChauveauS. L. WuJ. P. ColemanF. De MoriD. BettoniF. AnulliAlessandro GazCrisostomo SciaccaSimon AkarG. CibinettoYu I. SkovpenD. G. HitlinN. ArnaudG. RizzoM. RöhrkenS. H. RobertsonG. EigenHeiko LackerW. DunwoodieJ. OcarizB. T. MeadowsR. C. FieldM. R. ConveryC. HeartyN. TasneemS. PrellI. GarziaJames H CochranJ. W. GaryG. RavenM. D. SokoloffF. FortiNicola NeriA. CalcaterraT. LeddigP. R. BurchatI. M. NugentHerbert KochM. FritschT. S. MiyashitaA. LusianiR. CheaibA. PalanoB. N. RatcliffAidan Randle-condeB. G. PushpawelaD. J. SummersI. M. PeruzziG. R. BonneaudC. CartaroV. PoireauT. S. MattisonM. CarpinelliM. PiccoloJ. M. LoseccoP. C. KimK. GriessingerR. CowanR. SaccoK. R. SchubertG. BatignaniDavid HutchcroftC. HastD. J. LangeG. PireddaB. DeyD. S. ChaoM. V. PurohitM. BombenThomas LathamR. J. SobieL. VitaleJ. AlbertE. Ben-haimM. DavierS. LuitzC. PatrignaniV. TisserandP. PatteriD. GambaA. G. DenigS. I. SerednyakovF. BianchiJ. Va’vraM. BellisF. Martinez-vidalDominik MüllerA. J.s. SmithC. L. DavisYu G. KolomenskyV. E. BlinovT. J. GershonS. DittrichA. M. EisnerB. BhuyanE. LuppiH. AhmedA. OyangurenSw. BanerjeeB. G. FulsomF. SimonettoD. W. G. S. LeithG. SimiC. TouramanisK. Yu TodyshevG. CalderiniA. M. RossiR. StroiliB. EchenardE. GraugesO. GrünbergMario GiorgiAndrei GritsanJoseph IzenD. BernardX. C. LouV. B. GolubevJ. A. ErnstR. CenciE. GabathulerF. C. PorterW. GradlL. LanceriA. ZalloM. T. GrahamD. B. MacfarlaneM. RamaM. ChrzaszczC. VoßM. EbertColin JessopR. PrepostJ. P. LeesStephen SekulaE. A. KravchenkoV. SantoroG. VasseurK. T. FloodV. P. DruzhininC. BozziK. HonscheidR. J. BarlowM. PosoccoH. A. NealG. CasarosaA. R. BuzykaevM. S. AlamA. BeaulieuR. KowalewskiN. GuttmanG. De NardoAlessandro PilloniD. R. PeimerMaurizio BiasiniOwen Rosser LongL. SunG. MarchioriAdrian John BevanTim AdyeR. FacciniF. FerrarottoA. J. LankfordR. D. KassF. Le DiberderG. A. CowanMartino MargoniJ. M. RoneyJ. G. SmithS. EmeryF. Di LodovicoD. J. Payne

subject

PhysicsParticle physicsMeson010308 nuclear & particles physicsElectron–positron annihilationHadronGeneral Physics and AstronomyResonanceParticle Data GroupElementary particle01 natural sciencesNuclear physicsPion0103 physical sciencesD meson010306 general physics

description

We measure the mass difference, Δm_{+}, between the D^{*}(2010)^{+} and the D^{+} using the decay chain D^{*}(2010)^{+}→D^{+}π^{0} with D^{+}→K^{-}π^{+}π^{+}. The data were recorded with the BABAR detector at center-of-mass energies at and near the ϒ(4S) resonance, and correspond to an integrated luminosity of approximately 468  fb^{-1}. We measure Δm_{+}=(140 601.0±6.8[stat]±12.9[syst])  keV. We combine this result with a previous BABAR measurement of Δm_{0}≡m(D^{*}(2010)^{+})-m(D^{0}) to obtain Δm_{D}=m(D^{+})-m(D^{0})=(4824.9±6.8[stat]±12.9[syst])  keV. These results are compatible with and approximately five times more precise than the Particle Data Group averages.

yearjournalcountryeditionlanguage
2017-11-14Physical Review Letters
https://doi.org/10.1103/physrevlett.119.202003