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Recent results on quarkonium spectroscopy from BaBar and Belle Bryan Fulsom SLAC National Accelerator Laboratory XXIII iemes Rencontres de Blois Blois, France June 1, 2011
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Heavy quark (q=c,b) bound system: qq Existence, masses, widths, quantum numbers Phenomenological models, effective field theory, lattice QCD Quarkonium Spectroscopy BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 2/26
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The Experiments BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 3/26 Operated over the past decade, accumulating ~1.5 ab -1 Quarkonium production via B/ (nS) decay, , ISR
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Decay of X(3872) J/ –X(3872) mass, width and BF measurements Radiative decays of the X(3872) –Search for X(3872) J/ and (2S) Recoil against in (3S) – b (2P) b (1P) transitions, (3S) mass, h b (1P) search Recoil against in (2S) –First evidence for h b (1P) Bottomonium transitions with converted photons –Radiative decays of (nS) and b (nP), b (1S) search Topics covered today BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 4/26
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Topics not covered today BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 5/26
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X(3872) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 6/26
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Discovered by Belle in B ± X K ±, X J/ –Since measured by BaBar, CDF, DØ, LHC –Also decays to DD*, J/ , and –J PC assignment 1 ++ or 2 -+ –DD* molecule, charmonium, or tetraquark? Mass, width, decays, rates can test these theories –Mass above or below DD* threshold? –Tetraquark predicts splitting between neutral and charged B decay Width –Narrow, best limit <2.3 MeV Decay rates –Ratio of neutral to charged (~1 for cc, ~0.1 for molecule) X(3872) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 7/26
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Full Belle dataset Reconstruct B X(3872) K, X(3872) J/ ( l + l - ) Perform 3D fit to m BC, E, m(J/ ) X(3872) J/ Update BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 8/26
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Most precise measurements of branching fraction and mass Mass splitting disfavors tetraquark hypothesis BF ratio consistent with previous BaBar results –R = (0.41 ± 0.24 ± 0.05) Best limit on width m(X(3872)) world average gives “binding energy” of ~0.12 ± 0.35 MeV X(3872) J/ Results BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 9/26 PropertyValue BF(B + K + X) x BF(X J/ ) (8.6±0.8±0.8) x 10 -6 BF(B 0 K 0 X) x BF(X J/ ) (4.3±1.2±0.4) x 10 -6 Ratio (B + /B 0 )0.50±0.14±0.04 M = mX(B + ) – mX(B 0 ) -0.7±1.0±0.1 MeV M(X(3872))3871.8±0.3±0.2 MeV (X(3872)) <1.2 MeV
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BaBar evidence (~3.5 ) for X(3872) decaying to J/ and (2S) Analyze same decay channel with ~2x amount of data Reconstruction –J/ l + l -, (2S) l + l -, (2S) J/ final states –Combine with to produce c1,2 (1P) and X(3872) candidates –Add K ± or K S to form B ± and B candidates X(3872) J/ , (2S) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 10/26
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Verify signal extraction technique on B cJ K, cJ J/ Good agreement with PDG First measurement of suppressed B ± c2 K ± decays cJ J/ BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 11/26
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Simultaneous fit of K ± and K S o modes First “observation” (5.5 ) of X(3872) J/ Confirms C = + Most precise measurement of branching fractions; agrees with BaBar –B (B X(3872) K) B (X(3872) J/ ) = (1.8 ± 0.5 ± 0.1) 10 -6 X(3872) J/ BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 12/26
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Combine (2S)K with any ± or in the event and veto if it is consistent with B (2S)K* decay Fit (2S) distribution with three components: – Peaking (MC), non-peaking (sidebands/MC), signal No evidence for X(3872) (2S) signal –Ratio [X(3872) (2S)] / [X(3872) J/ ] < 2.1 –Compared to R = 3.4 ± 1.4 from BaBar X(3872) (2S) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 13/26
![Combine (2S)K with any ± or in the event and veto if it is consistent with B (2S)K* decay Fit (2S) distribution with three components: – Peaking (MC), non-peaking (sidebands/MC), signal No evidence for X(3872) (2S) signal –Ratio [X(3872) (2S)] / [X(3872) J/ ] < 2.1 –Compared to R = 3.4 ± 1.4 from BaBar X(3872) (2S) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / / Page 13/26](http://images.slideplayer.com./12/3767623/slides/slide_13.jpg "Combine (2S)K with any ± or in the event and veto if it is consistent with B (2S)K* decay Fit (2S) distribution with three components: – Peaking (MC), non-peaking (sidebands/MC), signal No evidence for X(3872) (2S) signal –Ratio [X(3872) (2S)] / [X(3872) J/ ] < 2.1 –Compared to R = 3.4 ± 1.4 from BaBar X(3872) (2S) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / / Page 13/26")
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Bottomonium BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 14/26
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Analysis goal: search for Y(3S) h b (1P) Define recoil mass: m R 2 = (m (3S) – E ) 2 – |P | 2 2 fit to m R Peaking components – (3S) h b signal – (3S) (2S) – (2S) (1S) – b1,2 (2P) b1,2 (1P) Smooth backgrounds –K S –Non-peaking background Dipion Recoil in (3S) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 15/26
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Dipion Recoil Fit Result BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 16/26
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No evidence for h b : B ( (3S) h b (1P)) < 1.8 10 -4 Precision measurements First observation of b1,2 (2P) b1,2 (1P) transitions Dipion Recoil Summary BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 17/26
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Analysis Strategy –Search for (3S) h b (1P) –Reconstruct ( ) + –Require E consistent with h b (1P) b (1S) –Assume B (h b (1P) b (1S)) 41% Define missing mass: m.m.( ) 2 = (m (3S) – E ) 2 – P 2 –N from m fit in each m.m.( ) bin 2 fit of m.m.( ) distribution –h b (1P) signal: Double Crystal Ball –Background: 6 th order polynomial Search for h b (1P) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 18/26
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Y(3S) h b (1P)( b (1S)) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 19/26
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Measured mass agrees with expectation –m h b (1P) = (m b0 (1P) +3m b1 (1P) +5m b2 (1P) ) / 9 9900 MeV/c 2 Branching fraction consistent with theory First evidence for h b (1P), definitively confirmed by Belle Evidence for h b (1P) BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 20/26 PropertyValue Yield9145±2804±1082 evts. Significance 3.0 M [h b (1P)]9902±4±1 MeV/c 2 BF(Y(3S) h b ) x BF(h b b ) (3.7±1.1±0.7) x 10 -4
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Radiative bottomonium transitions –Rates generally phenomenologically well-predicted –Gateway to discovery (e.g.: (nS) b (1S)) Use converted photons ( e e ) improve resolution (e.g.: 25 5 MeV) –Reconstruct pair of tracks, selected with 2 fitter, m , –Additional cuts: |cos thrust |, N tracks, veto –Fit E * spectrum in four regions of interest Goals: Resolve E * spectrum to make precision measurements Radiative Transitions BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 21/26
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Three “signal” transitions ( bJ (2P) (2S)) and six (1D)-related lines Precision measurements of BF( bJ (2P) (2S)) (3S) : 180<E *<300 MeV BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 22/26
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Complicated photon spectrum: many overlapping signals Observation and precise measurement of (3S) b0,2 (1P) transitions Transition rate pattern J = 2 > 0 > 1 unusual for quarkonium (3S) : 300<E *<600 MeV BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 23/26
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Measure bJ (1P) (1S) and search for b (1S) signal Due to high bkgd/low eff., no evidence for (2S) b (1S) (2S) : 300<E *<800 MeV BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 24/26
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Measure bJ (2P) (1S) and search for b (1S) signal E * for b (1S) is lower than expected, but significance is ~2.7 Need more data to take full advantage of converted photon technique (3S) : 600<E *<1100 MeV BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 25/26
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X(3872) at Belle –Improved measurements of X(3872) properties –Observation of X(3872) J/ , disagreement on X(3872) (2S) –Even after ~10 years, still haven’t solved the X(3872) problem! Bottomonium studies at BaBar –Evidence for h b (1P) in Y(3S) h b (1P) decays –Precision measurements of masses and dipion and radiative transitions offer important tests for theoretical models B-Factories have revitalized field of quarkonium spectroscopy –Many new measurements and discoveries of puzzling new states –Very promising future at Belle-II and SuperB Summary BaBar/Belle Quarkonium Spectroscopy / Bryan Fulsom / Rencontres de Blois / 2011.06.01 / Page 26/26
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