New CLEO Results on Charmonium Decays

New CLEO Results on Charmonium Deays Brian Heltsley on behalf of the CLEO Collaboration 6th International Workshop on Heavy Quarkonia Nara, Japan Deember 2008 B. Heltsley QWG Deays 1

Radiative Charmonia Deays Simplest onia deays J/ψ γ γ γ η γ γ χ J γ γ Next simplest J/ψ γ gg ψ(2s) γ gg New for QWG! J/ψ χ J γ (ρ 0, ω, ϕ) η Properties from J/ψ γ η _ η, χ 0,2 _ J/ψ, ψ(2s) _ γ γ γ γ γ g g B. Heltsley QWG Deays 2

J/ψ 3γ & η γγ Measure or limit the deay J/ψ 3γ Expet B( J/ψ 3 γ ) ~ 10 6 10 5 B < 5.5 10 5 Crystal Ball (1980) No partile ever observed in a 3γ3 deay! B( ω 3 γ ) < 1.9 10 4 B( Z 3 γ ) < 1 10 5 However, ortho-positronium (o-ps), the 3 S 1 e + e - atom, deays nearly 100% to 3γ. 3. Also, B(o-Ps Ps 5γ) 2 x 10 6 Seek η γ γ in radiative J/ψ deays & measure B( J/ψ γ η ) B( η γ γ ) E760 & E835 have observed η γ γ in pp γ γ Belle: 4.1σ evidene in B ± K ± γγ B( η γ γ ) = ( 2.4 +0.9 0.8 +0.7 0.4 ) 10 4 [PLB 662 (2008) 323] B. Heltsley QWG Deays 3

J/ψ 3γ π + J/ψ γ 1 γ 2 γ 3 ψ(2s) Unique topology: 2 traks provide a tag of the J/ψ 3 showers with no resonant substruture Impose 4-momentum onservation χ 2 of kinemati fit a key variable Suppress feed- down from other deays Also seek J/ψ γ η, η γ γ B. Heltsley QWG Deays 4 π

J/ψ 3γ Largest photon pair mass MC Smallest photon pair mass MC π 0 π 0 MC Plot has χ 2 <3 ut in plae Veto on masses inside 0.10-0.16, 0.16, 0.50-0.60, 0.60, 0.90-1.00, & >2.8 GeV 37 events remain in the data outside these regions B. Heltsley QWG Deays 5

J/ψ γ π 0 π 0 feed-down down Only happens if BOTH π 0 s deay asymmetrially Demand 4-momentum 4 onservation to suppress: χ 2 /dof < 3 for signal BRs for various J/ψ γ f J not well known Notie that SHAPES of all 5γ χ 2 distribution are similar The data an be used at large χ 2 /dof (5-20) for bgd normalization Mix of bgd soures does not to matter muh for leakage into χ 2 <3 B. Heltsley QWG Deays 6

PRL 101, 101801 (2008) Result for J/ψ 3γ Normalize γ f j bakground in χ 2 =5-20 region Small non-j/ J/ψ bgd from π + π - reoil sidebands After normalized bgd subtration Signal shape required to desribe data at small χ 2 Net yield 24.2 +7.2 evts -6.0 B = (12 ± 3 ± 2) x 10-6 6σ signifiane B. Heltsley QWG Deays 7

η γ γ B. Heltsley QWG Deays 8

η γ γ Seletion Largest photon pair mass γπ 0 Signal region γη MC γη MC MC 2 signal events 0.8 events bgd total Eff=10.9% Soure # bgd γ η 0.3 γ η 0.2 3γ 0.3 Total 0.8 0 Smallest photon pair mass B. Heltsley QWG Deays 9

η γ γ Result B( J/ψ γ η ) x B( η γ γ ) = ( 1.2 +2.7 1.1 ± 0.3 ) x 10 6 or <5.3 x 10 6 @90%CL Using CLEO s B( J/ψ γ η ) = ( 1.98 ± 0.09 ± 0.30 )%, B( η γ γ ) =( 0.6 +1.3 0.5 ± 0.1 ) x 10 4 PDG08 value = ( 2.4 +1.1 Consistent within 1.1σ < 2.6 x 10 4 @90%CL +1.1-0.9 0.9 ) x 10 4 PRL 101, 101801 (2008) B. Heltsley QWG Deays 10

ψ(2s) γ χ χ γ γ 1 J, J B. Heltsley QWG Deays 11

ψ(2s) γ χ 1 J, χ J γ γ Shown@QWG5: H. Mahlke Striking experimental signature: only 3γ 3! In R Γ 2 (γγ)) / Γ 0 (γγ)) many theo.. & exp. unertainties will anel 1 st deay-based msmt Lowest order: R=0.27 1 st order α S : R=0.12 PRD78, 091501(R) (2008) e + e - γγγ CLEO B. Heltsley QWG Deays 12

J/ψ γ gg B. Heltsley QWG Deays 13

J/ψ γ gg Selet lean primary γ s z γ E γ / E beam : z γ >0.3 veto γ s s that pair with another to form π 0 do not veto η γγ (too muh signal killed) Eliminate e + e - ontinuum bgd,, partly ISR, by using ψ(2s) (2S) π + π - J/ψ Makes analysis muh simpler than ϒ γ gg [PRD74, 012003 (2006)] Small non-j/ J/ψ bgd diretly subtrated with π + π - reoil mass sidebands Model remaining bgd in 3 systematially omplementary ways Two are data-driven, driven, one MC-only See paper for details Spread among them indiative of syst.. error Model signal as Three 2-body 2 proesses: γη, γη, γη(1440) Theoretial shape validated with CLEO ϒ γ gg measurements NEW: also inlude z γ -osθ γ orrelation & shape a la Koller-Walsh [NP B140, 449 (1978)]. Bakground Shapes Signal Spetrum Z γ 3 bgds differ mostly at large z γ where bgd is smallest osθ γ B. Heltsley QWG Deays 14

Signal Shape These are spetra developed for ϒ γgg PRD 69, 114006 (2004); PRD 72, 054014 (2005); PRL 96, 111801 (2006). PL 133B, 248 (1983). Found to work adequately for J/ψ γ ψ γgg z γ B. Heltsley QWG Deays 15

J/ψ Diret Photon Spetrum Data with 3 different bgd subtrations ϒ(1S) shape with arbitrary normalization Garia-Soto hep-ph/0701030 Predition for J/ψ γgg Large Color Otet ME Small Color Otet ME Do not desribe using bgd 1 CLEO data using bgd 2 using bgd 3 After orreting for angular aeptane & effiieny, this spetrum gives # J/ψ γgg events # J/ψ ψ ggg from # π + π - J/ψ # J/ψ γgg J/ψ e + e -, µ + µ - (PDG) J/ψ γ * qq (PDG) PRD 78, 032012 (2008) B. Heltsley QWG Deays 16

Measured R γ & QCD Systemati error (11%) dominated by Bakground subtration unertainty Signal shape unertainty Brodsky, Lepage, Makenzie PRD 28, 228 (1983) predit Also an be expressed as B(J/ J/ψ γ gg) ) = ( 9.0 ± 1.0 ) % Somewhat larger than Voloshin [PPNP 61, 455 (2008) ] estimate of 6.7% based on α S (m )=0.19 & known Γ ee (J/ψ) B. Heltsley QWG Deays 17

ψ(2s) γ gg B. Heltsley QWG Deays 18

ψ(2s) γ gg Similar approah, but Must subtrat spetrum from below-ψ(2s) ontinuum data to suppress ISR effets Must subtrat ontribution from J/ψ γ ψ γgg & its bgd Use shape from dipion tags: ψ(2s) (2S) π + π - J/ψ Corret for ε, B(any J/ψ) ) / B +- FSR from MC Model remaining bakgrounds 3 different ways (both MC and data- driven methods) π 0 Bgd Lumi-saled ontinuum data ψ(2s) Data π + π - J/ψ from data FSR PRELIMINARY PRELIMINARY B. Heltsley QWG Deays 19

Results for ψ(2s) γ gg Integrate data for z γ >0.4 spread among bgd methods indiates systematis Corret for ε Corret for z γ <0.4 / z γ >0.4 ~30% of spetrum is z γ <0.4 Σ B[ ψ(2s) e + e -, µ + µ -, τ + τ - (PDG) γ * qq (PDG) π + π - J/ψ, π 0 π 0 J/ψ, η/π 0 J/ψ γη γ χ J, γ η, π 0 h 87%. 87%. Leaves ~13% for γ gg,, 3g We know total #ψ(2s)# B( γgg ) 0.9 % B( ggg ) 12 % PRELIMINARY R γ = 0.065 ± 0.010 ± 0.023 ~Half of J/ψ R γ (~3σ below) Reminder: for ϒ(1S,2S,3S) γgg, CLEO measurements yielded R γ 0.03 within ~10-15% errors [ PRD74 (2006) 012003 ] B. Heltsley QWG Deays 20

Charmonium Annihilation Summary B. Heltsley QWG Deays 21

Many measured annihilation rates! CLEO has measured several important & fundamental rates Various ratios an be taken to anel out wave funtion terms & other ommon fators Lowest order PQCD preditions known, up to hoie of the mass sale at whih to evaluate α S 1 st order α S orretions to these ratios are also known Most are large (>~20%) Some are unphysial Fodder for postditions! J/ψ _ η, χ 0,2 _ J/ψ, ψ(2s) _ J/ψ, ψ(2s) _ γ γ γ γ γ g g g g B. Heltsley QWG Deays 22

Charmonium Annihilation Γ Ratios System η J/ψ J/ψ J/ψ J/ψ, ψ(2s) χ 0 χ 2 χ 0,2 γγ Ratio Lowest order L.O. Value Msd by CLEO γγ / gg (8 / 9) (α( / α S ) 2 5.3 x 10-4 <2.6 x 10-4 (90%CL) γγγ / e + e - [64(π 2-9) / (243π)] α 5.3 x 10-4 (2.0±0.7) 0.7) x 10-4 γγγ / γgg (8 / 27) (α( / α S ) 2 1.8 x 10-4 (1.3±0.4) x 10-4 γγγ / ggg (128 / 135) (α( / α S ) 3 1.4 x 10-5 (1.8±0.4) x 10-5 γgg / ggg (16 / 5 ) (α( / α S ) 0.078 0.137±0.017 0.017 0.065±0.025 0.025 γγ / gg ( 8 / 9 ) (α( / α S ) 2 5.3 x 10-4 (2.3±0.4) x 10-4 γγ / gg ( 8 / 9 ) (α( / α S ) 2 5.3 x 10-4 (4.3±0.6) x 10-4 γγ 2 / γγ 0 4 / 15 0.27 0.28±0.06 0.06 Kwong, et al., PRD 37, 3210 (1988) Using α S =0.3 B. Heltsley QWG Deays 23

χj γ (ρ 0, ω, ϕ) B. Heltsley QWG Deays 24

χj γ (ρ0, ω, ϕ) Glue-rih system reoils against γ Clean experimental signatures ULs for B[χ 0,2 γ (ρ 0, ω, ϕ)] Observe B[χ 1 γ (ρ 0, ω)] )]~10-4 Fators of ~(15,50) higher than predition of Gao, Zhang, & Chao, CPL 23, 2376 (2006) χ 1 γ ρ 0 has ~full long. polarization Like f 1 (1285) γρ 0 [VES, χ 1 γ ρ 0 Longitudinal [VES, ZPC66, 71 (1995) ] (2.43±0.19±0.22) x 10-4 γ ρ 0 (0.83±0.15±0.12) x 10-4 γ ω γ ϕ χ 1 γ ω Transverse PRL 101, 151801 (2008) B. Heltsley QWG Deays 25

η Properties η π + π - π 0 Signifiane: >6σ η π + π - e + e - Signifiane: >6σ CLEO has studied η properties Mass error improved by fator of 5 Limits on rare hadroni modes 1 st observation of η π + π - π 0, π + π - e + e - properties via J/ψ γ η PRL101, 182002 (2008) B. Heltsley QWG Deays 26

Summary & Conlusions CLEO has measured a large number of harmonium annihilation rates B(J/ψ γ γ γ) ) = (12 ± 3 ± 2) x 10-6 B(J/ψ γ η ) x B( η γ γ ) = ( 1.2 +2.7 1.1 ± 0.3 ) x 10 6 χ J : Γ 2 (γγ)) / Γ 0 (γγ)) = 0.278 ± 0.050 ± 0.018 ± 0.031 J/ψ γ gg : R γ = 0.137 ± 0.001 ± 0.016 ± 0.004 ψ(2s) γ gg: : R γ = 0.065 ± 0.010 ± 0.023 χ J γ (ρ 0, ω, ϕ) ) rates measured χ 1 γ (ρ 0, ω) BRs exeed predition by fator of (15,50) CLEO has studied η properties Mass error improved by fator of 5 Limits on rare hadroni modes 1 st observation of η π + π - π 0, π + π - e + e - properties via J/ψ γ η B. Heltsley QWG Deays 27

Charmonium Deay Analyses in Progress η exlusive branhing frations h deays to light hadrons J/ψ γ + invisible J/ψ invisible J/ψ, ψ(2s) γ/π 0 pp J/ψ, ψ(2s) γ f J γ (ππ,, KK, ηη) ) [glueball[ searh] J/ψ ππ,, KK, pp J/ψ, ψ(2s) baryon-antibaryon antibaryon ψ(4160) γ χ (2P) searh B. Heltsley QWG Deays 28

Bakup Slides B. Heltsley QWG Deays 29

η Properties B. Heltsley QWG Deays 30

η Properties Some properties of η (958) are not so well known M(PDG08) = 957.66 ± 0.24 MeV Best msmt 1974: : MMS 957.46 ± 0.33 MeV Compare to η mass error of 24 kev: η is less preise by a fator of 10 Rare BRs: : many mode limits of order 1-5% 1 B(η π + π - π 0 ) < 5% Of interest beause B(η π + π - π 0 ) m u -m d (or not!) Preditions vary from 0.1%-3%. Rate sensitive to level of η-η -π 0 mixing, final state resattering B(η π + π - e + e - ) < 0.6%. Predited to be ~0.2%. η 2(π + π - ) π 0, η 3(π + π - ), η 2(π + π - ) eah has a B < 1% Turns out that we an produe many η mesons in ψ(2s) π + π - J/ψ,, J/ψ γ η : ~40K in CLEO- data. Use ommon deay modes for mass measurement & searh for some rare modes Exlusive reonstrution & onstrained fitting B. Heltsley QWG Deays 31

η Mass J/ψ vtx J/ψ mass ψ(2s) vtx π + π - γ ψ(2s) 4-Mom π + π - γ π + π - η (γγ) π + π - η (γγ) π + π - η (π + π - π 0 ) π + π - η (π + π - π 0 ) ~4K reonstruted deays Fator of 5 in mass preision PRL101, 182002 (2008) η π + π - π 0 ross hek Mass M(PDG) B. Heltsley QWG Deays 32

Systemati errors η Mass B. Heltsley QWG Deays 33

arxiv:0809.2587 Rare η Deays η π + π - π 0 Signifiane: >6σ η π + π - e + e - Signifiane: >6σ ππγ onv. bgd 1 st Obs. PDG (10-4 ) η invisible Improved/ 1 st Limits B. Heltsley QWG Deays 34

Results for J/ψ nγ B. Heltsley QWG Deays 35

Matrix element for J/ψ 3 γ Lowest order for ortho-positronium 3γ deay: Ore & Powell, Phys. Rev. 75, 1696 (1949). < M 2 > = (512/3) π 2 α 6 Σ [ ( 1 x i )/ ( x j x k ) ] 2 where x i = 2 E * i / M J/ψ, E i =.o.m. γ i energy, i j,, k Weight the phase spae events by this fator to sulpt the distributions Is a very gentle sulpting Makes ( 0.2 ± 0.1 )% relative differene in effiieny ompared to pure phase spae 3 i=1 B. Heltsley QWG Deays 36

Belle evidene for η γ γ B ± K ± γγ Belle PLB 662 (2008) 323 Sig. = 4.1σ B( η γ γ ) = ( 2.4 +0.9 0.8 +0.7 0.4 ) 10 4 B. Heltsley QWG Deays 37

χj γ (ρ, ω, ϕ) χ J _ u,d,s _ u,d,s ρ, ω, φ _ u,d,s _ u,d,s _ χ J f 1 B. Heltsley QWG Deays 38 χ J

J/ψ γ gg Small bgd subtration from non-j/ψ photons Signal B. Heltsley QWG Deays 39