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Nonstandard mesons Stephen L. Olsen University of Hawai’i cc u d u u d u uc u c tetra-quarks meson-meson molecules q q – q q diquark pairs q q-gluon hybrids nucleon-antinucleon baryonium uc u c
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This talk Candidate non-standard mesons with hidden charm from Belle & BaBar Candidate baryonium meson from BES cc uc u c u d u u d u probably no time for:
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Concentrate on “hidden charm” systems standard cc mesons are: –best understood theoretically –narrow & non overlapping c c systems are prolifically produced in B meson decays. b c c s V cb cos C CKM favored W-W- cc uc u c (i.e containing c & c)
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Thanks to KEKB, Belle has lots of B mesons (>1M BB pairs/day) >1fb -1 /day Design: 10 34
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Charmonium primer ( ’ J/ ) 70 keV ( ” J/ ) 50 keV ( ’ J/ ) 5 keV SU F (3) violating These states have all been identified These states have not yet been found Hadronic transitions ( ’ J/ ) 0.3 keV isospin violating EM transitions (E1) 100~300 keV (allowed M1) 1 keV DD ( * ) decays dominate ~wide (10’s of MeV) Below DD ( * ) thresholds ~narrow (~<MeV )
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X(3872) J/ B K J/ M( J ) –M(J/ ) ’ J/ X(3872) J/ S.-K.Choi, S.L.Olsen et al (Belle) PRL 91 262001 (2003)
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The X(3872) is well established seen in 4 experiments X(3872) CDF X(3872) D0 hep-ex/0406022 9.4 11.6 BaBar
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Is it a cc meson? 3872 MeV If so, it must be one of these?
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no obvious cc assignment 3872 c ” h c ’ c1 ’ 2 c2 3 M too low and too small angular dist’n rules out 1 J/ way too small c too small;M( ) wrong c & DD) too small c should dominate SLO hep-ex/0407033
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go back to square 1 Determine J PC quantum numbers of the X(3872) with minimal assumptions
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J PC possibilities (for J ≤ 2) 0 -- exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed 1 - - DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2- -(2)2- -(2) 2 - + ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
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J PC possibilities 0 -- ruled out; J P =0 +,1 - & 2 + unlikely 0 -- exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed 1 - - DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2- -(2)2- -(2) 2 - + ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
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Strong evidence for C=+1 13.6 ± 4.4 X(3872) J/ evts (>4 significance) X(3872) J/ 12.4 ± 4.2 evts12.4 ± 4.2 evts virtual (782)? X(3872) J/ Bf(X J/ ) Bf(X J/ ) =0.14 ± 0.05 Br(X 3 J/ ) Br(X 2 J/ ) = 1.0 ± 0.5 M( ) M( ) X(3872) J/ Fits to (760)
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J PC possibilities (C=-1 ruled out) 0 -- exotic Violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed 1 - - DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2 - - ( 2 ) 2 - + ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
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Angular Correlations K J/ J=0 X 3872 J z =0 z Rosner (PRD 70 094023) Bugg (PRD 71 016006) Suzuki, Pakvasa (PLB 579 67)
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ll |cos l | 2 /dof = 34/9 |cos | |cos | 2 /dof=34/9 2 /dof=18/9 0 ++ 0 -+ rule out 0 ++ & 0 -+ J k x J
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J PC possibilities (0 -+ & 0 ++ ruled out) 0 -- exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed 1 - - DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2 - - ( 2 ) 2 - + ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
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M( ) can distinguish -J/ S- & P-waves S-wave: 2 / dof = 43/39 P-wave: 2 / dof = 71/39 q* roll-off q* 3 roll-off (CL=0.1%) (CL= 28%) Shape of M( ) distribution near the kinematic limit favors S-wave
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Possible J PC values (J -+ ruled out) 0 -- exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed 1 - - DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2 - - ( 2 ) 2 - + ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed
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X(3872) D 0 D 0 0 ? 11.3±3.6 sig.evts (>4 ) Bf(B KX)Bf(X DD )=2.2 ± 0.7 ± 0.4x10 -4 D *0 D 0 0 ? M(D 0 D 0 0 ) 1 ++ : DD* in an S-wave q* 2 ++ : DD in a D-wave q* 5 Strong threshold suppression
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Possible J PC values (2 ++ ruled out) 0 -- exotic violates parity 0 -+ ( c ” ) 0 ++ DD allowed ( c0 ’ ) 0 +- exotic DD allowed 1 - - DD allowed ( (3S)) 1 -+ exotic DD allowed 1 ++ ( c1 ’ ) 1 +- (h c ’ ) 2 - - ( 2 ) 2 - + ( c2 ) 2 ++ DD allowed c2 ’ ) 2 +- exotic DD allowed 1 ++
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can it be a 1 ++ cc state? 1 ++ c1 ’ (the only possibility) 3872 Bf(X J/ )>4% is very large for an isospin-violating channel (Isospin violating)
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Expectations for ’ c1 ( ’ c1 J/ ) 11 keV Barnes Godfrey PRD 69 054008 ( ’ c1 J/ ) = ? ( ’ J/ ) 0.3 keV (“educated” guess?) Bf(X J/ ) Bf(X J/ ) 30 ~ 40 Bf(X J/ ) Bf(X J/ ) =0.14 ± 0.05 Expect: Measmnt: >200x discrepancy c1 ’ component of X(3872) is few% (at most?) can our “education” really be this bad?
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Intriguing fact M X3872 =3872 ± 0.6 ± 0.5 MeV m D0 + m D0* = 3871.2 ± 1.0 MeV lowest mass charmed meson lowest mass spin=1 charmed meson DD* 2 loosely bound qq color singlets with M = m D + m D* - u c u c one exchange attractive for 1 ++ Tornqvist PLB 590, 209 (2004) Deuson? deuteron-like DD* bound state?
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X(3872) = D 0 D* 0 bound state? J PC = 1 ++ is favored M ≈ m D0 + m D0* Large isospin violation is natural ( & was predicted) : |D 0 D* 0 > = 1/ 2 (|10> - |00>) (X J/ ) < (X J/ ) was predicted (X D 0 D 0 0 ) too large? Bf(B 0 K 0 X 3872 )/Bf(B + K + X 3872 ) too large? Equal mixture of I=1 & I =0 Swanson PLB 598, 197 (2004) Tornqvist PLB 590, 209 (2004) Swanson PLB 588, 189 (2004) Braaten & Kusunoki PR D71, 074005 predict: < 0.08 BaBar measurement (hep-ex/0507090): 0.5 0.3
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diquark-antidiquark? Maiani et al predict: M = M(X u ) – M(X d ) = 8 3 MeV BaBar (hep-ex/0507090) reports: M = 2.7 1.3 0.2 MeV uc u c dc d c Maiani etal predict a doublet of states PRD 71,014028 (2005) Xu=Xu= Xd=Xd= B+K+XuB+K+Xu B0K0XdB0K0Xd BaBar
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Are there others? Is the X(3872) a one-of-a-kind curiousity? or the 1 st entry in a new spectroscopy? Look at other B decays hadrons+J/ B K J/ B K J/ B K J/
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B K J/ in Belle “Y(3940)” M≈3940 ± 11 MeV ≈ 92 ± 24 MeV M bc S.K. Choi & S.L.Olsen et al. (Belle), PRL94, 182002 (2005) M( J/ ) MeV
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Y(3940): What is it? Charmonium? –Conventional wisdom: (SU(3)-violating) J/ decay should not be a discovery mode for a cc state with mass above DD & DD* threshold! eg.Brambilla et al (QWG) hep-ph/0412158 cc-gluon hybrid? –predicted by QCD, –decays to DD and DD* are suppressed (“open-charm” thresh = m D + m D** = 4.3 GeV) –large hadron+J/ widths can occur –masses expected to be 4.3 ~ 4.4 GeV (higher than what we see) Horn & Mandula PRD 17 898 others
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J/ sideband Well above DD & DD* threshold but wide & found in a suppressed mode?? M=4259 8 MeV = 88 23 MeV B. Aubert et al. (BaBar) hep-ph/0506081 Y(4260) 10.58 GeV 4.26 GeV not seen in (e + e - hadrons) at Ecm =4.26 GeV J.Z. Bai et al. (BESII) PRL 88 101802 BES BaBar’s Y(4260) (e + e - hadrons)
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summary X(3872): –Existence well established –J PC = 1 ++ –Br(X J/ ) too high for charmonium –Br(X D 0 D 0 0 ) too high for molecule –Br(B 0 K S X 3872 ) also too high for molecule(?) – M too small for diquarks? –Mass too low for hybrid by a factor of more than 200! still under study The more we learn more about it the more puzzling it becomes. (M(X u ) (from B + K + X u ) - M(X d ) (from B 0 K S X d )
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summary (cont’d) Y(3940) Belle – ( Y 3940 J/ too high for charmonium –Mass too low for a hybrid Y(4260) BaBar – (y 4260 J/ also way too high –1 --, but not seen in e + e - hadrons by factors of ~10 3
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Mahalo enjoy mid-autumn festival in Hawaii X(3872) Y(3940) Y(4260) … Homeless mesons 但願人長久 千里共嬋娟
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Back-up slides
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Baryonium at BES??? u d u u d u
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J/ pp (at BES) M(pp) M(pp)-2m p (GeV) 00.1 0.2 0.3 M=1859 MeV/c 2 < 30 MeV/c 2 (90% CL) +3 +5 10 25 3-body phase space acceptance weighted BW Phys. Rev. Lett. 91, 022001 (2003)
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Baryonium potential & Wave fcn X ’ should be a strong channel -V 0 (r) Potential barrier G.J. Dung & M.L. Yan hep-ph/0502127 “Rectangularized” Skyrmion-type potential I = 0, J pc =0 -+ pp annihilation M ~ 1860 MeV ~ 16 MeV large uncertainties
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M( ’) from J/ ’ 7.7 + - mass spectrum for + - & modes BESII Preliminary M = 1834 6 3 MeV = 68 20 8 MeV
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I=0 FSI In good agreement with X(1835) M = 1830.6 6.7 MeV = < 153 MeV @90%C.L. Re-fit J/ p p including FSI _ Sirbirtsev et al. (PRD 71 054010 )
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Appendix Other new hidden charm particles from Belle (near 3940!) –X(3940) –Z(3931)
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Other new particles from Belle e + e - J/ + X
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X(3940) DD* seen ( DD & J/ not seen)
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Z(3931) DD at Belle 41 11 evts (5.5 ) M=3931 4 2 MeV 20 8 3 MeV sin 4 (J=2)
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X(3940) Y(3940) (maybe the c ’’ ) ? Z(3931) = c1 ’ (almost for sure)
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c2, c0 << c1 X(3872) production much lower than for other Charmonium states: can set lower limit on B.F. Can measure absolute B.F.’s of B - K - X 0 e + e - B + B - K - X 0 Lower limit on BF(X J/ ) > 4.3% @ 90% C.L 244 fb -1 Very clear J/ and c signals N J/ =258+- 42 N c =266 +-42 c2 c1 c0 J/ Jon Coleman Moriond-QCD March 2005
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Kinematic variables CM energy difference: Beam-constrained mass: B K J B K J B B ϒ (4S) E cm /2 ee ee M bc EE
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1 ++ ll 1 ++ : sin 2 l sin 2 K 1 ++ looks okay! compute angles in X(3872) restframe |cos l | 2 /dof = 11/9 |cos | 2 /dof = 5/9
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M( J/ ) look-back plot
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Fit cos l with 1 ++ MC |cos l | 2 /dof=11.9/9
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Y(3940): What is it (cont’d) ? a molecule? –M ≈ 2m Ds –not seen in Y J/ ( contains ss) –width too large?? –no exchange for D S D S s c s c ?? PRL 93, 041801 M( J/ )
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Y(3940): What is it (cont’d) ? cc-gluon hybrid? –predicted by QCD, –decays to DD and DD* are suppressed (“open-charm” thresh = m D + m D** = 4.3 GeV) –large hadron+J/ widths can occur –masses expected to be 4.3 ~ 4.4 GeV (higher than what we see) cc Horn & Mandula PRD 17 898 (1978) + (many) others
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