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The Y5S at CLEO

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Title: The Y5S at CLEO


1
The Y(5S) at CLEO
Introduction Bs Reconstruction at the Y(5S)
CLEO PRL 96, 022002 (2006) B Reconstruction at
the Y(5S) CLEO PRL 96 152001 (2006)
Inclusive Ds production at the Y(5S)
CLEO PRL 95 261801 (2005) update CLEO Conf
06-16 Inclusive phi production at the Y(5S)
CLEO Conf 06-16
Ian Shipsey Purdue University For the CLEO
Collaboration
2
Introduction
  • The Y(5S) discovered by
  • CLEO CUSB in 1985.
  • massive enough to decay into
  • Knowledge of Bs production at Y(5S) essential for
    assessing the potential of Bs physics at a high
    luminosity ee collider.
  • A clean source of BS decays is valuable to
    interpret New Physics found directly at the LHC.

3
Y(5S) Brief History
CLEO PRL 54 381, 1985
  • CLEO CUSB scan in 1985 0.07 fb-1 0.12 fb-1
    taken on peak

Y(6S)?
Y(5S)
CUSB PRL 54, 377, 1985
  • CUSB fit to modified
  • potential model

But no conclusive evidence for Bs production at
Y(5S)
4
Return to Y(5S)
  • New Data
  • CLEO III 2003 0.42 fb-1 at 10881 MeV
  • BELLE 2005 1.86 fb-1 at 10869 MeV (Talk of
    Drutskoy)
  • BELLE June 2006 19 fb-1 at 10869 MeV (to be
    analysed)
  • Analysis differences between Y(5S) and Y(4S)
  • The ratio of resonance to continuum is larger at
    the Y(4S)
  • Same continuum data used for both Y(5S) and
    Y(4S). But continuum data is almost 300 MeV in
    CME below Y(5S) and is usually taken at
    different times. So the continuum subtraction
    becomes a significant systematic error
  • Cross sections measured in 1985 have been
    re-measured
  • CLEO (0.3010.0020.039) nb
  • BELLE (0.3050.0020.016) nb
  • Excellent agreement

5
CLEO Result 1 Observation of the Bs
_at_Y(5S) Exclusive reconstruction of
the Bs
  • An extension of B meson reconstruction technique
    used at the Y(4S)

CLEO PRL 96, 022002 (2006.)
MC
Case 1 Case 2 Case 3
6
CLEO Result 1 Observation of the Bs
_at_Y(5S)
4 events Y(5S) ? Bs Bs 3 Bs?J/?? , 1
Bs?J/???.
7
10 events Y(5S) ? Bs Bs Bs ? Ds() ?/? (4 Ds
modes)
8
CLEO Result 2Ordinary B mesons _at_ Y(5S)
MC
  • The Y(5S) resonance can decay into a variety of
    states with ordinary B mesons
  • 7 possibilities

Use same analysis techniqiue developed for Bs
mesons in previous analysis.
Ordinary B decay modes occupy a different region
on the ?E-Mbc plane have distinct decay modes
9
Ordinary B Mesons _at_ Y(5S)
With more BB final states (7) Mbc plane is
slightly more complicated.
B?D()(p or r) B? J/y K()
Data
MC
10
Ordinary B Mesons _at_ Y(5S)
1-D projection beam constrained mass with
suitable cuts on DE
CLEO
BB
  • Use B?D()(p or r),
  • B? J/y K()
  • Production largest for BB, consistent with
    models
  • BB/BB lt 22 _at_ 90 cl
  • BB/BB (2493)
  • BS mass
  • M(BS)-M(B)(87.61.60.2) MeV
  • M(Bs)(5411.7 1.6 0.6) MeV
  • M(BS)-M(BS)(45.71.70.7) MeV consistent, as
    expected from Heavy Quark Symmetry with
  • M(B)-M(B) 45.780.35 MeV

BBpp
BB
BB()p
BB
11
Ordinary B mesons _at_ Y(5S)
  • Determine yield from
  • B?D()(p or r) B? J/y K()
  • with B invariant mass
  • Total of 539 events
  • s0.1770.0300.016 nb,
  • 59 of resonance cross section combine with
  • the sum s (0.286 0.040) nb saturates (within
    the stats.)
  • Compare to total cross section
  • Translates to fS0.410.100.10

Invariant mass
12
Model Dependent BS Fractions, fS
  • Method use inclusive yield
  • Choose a particle that has very different decay
    rates from B BS
  • Ex DS

measure
measure
Model estimate based on quark level diagrams and
measured ordinary B decay rates ? B(BS?DS X)
(9211)
13
Result 4
Measurement of fS from Ds Yields -data
Y(5S) Y(4S)
continuum
Y(4S)
Branching Fraction
Y(5S)
x ( p/Ebeam )
(CLEO)
(Belle)
14
Measurement of fS Using f Yields
Result 4
  • Here we need B(BS ? fX)
  • Use CLEO-c inclusive yields for
  • B(Do ? fX)(1.00.100.10)
  • B(D ? fX)(1.00.100.20)
  • B(DS ? fX)(15.12.11.5)
    Preliminary
    hep-ph/0605134
  • From B(B ? fX)(3.50.3), ascertain that most of
    fs arise from B ?D DS?f
  • Predict that B(BS ? fX)(14.92.9)

15
Measurement of fS Using f Yields -data
  • CLEO inclusive f yields, for xlt0.5, R2lt0.25

Y(5S) Y(4S)
Branching Fraction
x ( p/Ebeam )
16
Measurement of B(Y(5S) ? BS()BS ()) Using DS
f Mesons
SUMMARY
s(ee- ? Y(5S)) (0.301 0.002 0.039)nb
1 CLEO PRL 95, 261801 (2005) 2 CLEO PRL 96
152001(2006)
17
Summary of fS Measurements
Combine with Belle
  • Plot statistical systematic uncertainties
    added linearly
  • Average takes into account correlated syst.
    uncertainties on Y(5S) cross-section
  • model dependencies on Inclusive yields

Plot adapted form Stone SuperB Workshop SLAC
6/2006
18
Summary
  • 1st Observation of the Bs at the Y(5S)
    and determination of the composition of BsBs
    final states. BsBs dominates
  • 1st determination of the composition of ordinary
    BB final states at Y(5S). BBBBBB 31lt1,
  • Upper limits for BB ,B()B()p and BBpp, BsBs
    BsBs.
  • Both Bs B compositions consistent with
    predictions
  • M(Bs)(5411.7 1.6 0.6) MeV world best
    measurement.
  • M1 Mass splitting M(BS) - M(BS) (45.7 1.7
    0.7) MeV
  • as expected by HQS
  • Inclusive yields of Ds and phi mesons measured
    for the first time ?
  • Bottom line between about ΒΌ (0.07 nb) 1/3
    (0.11 nb) of Y(5S) decays
  • to BS() BS() These estimates are model
    dependent and indicate that an
  • extended Y(5S) run at a B factory would be
    fruitful.
  • Belle results from 1.8/fb run are in broad accord
    with the above results

19
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20
Additional Slides
21
Result 3
Y5S
Y4S
22
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23
Comparisons with Models
Unitarized Quark Model
Quark Hybrid Model
  • UQM predicts DR0.4, fS38, BSBS large
  • QHM predicts DR0.7, fS21, BSBS large
  • Other models
  • Martin Ng, Z Phys. C 40, 133 (1988)
  • Byers hep-ph/9412292

Y(5S)
Y(5S)
24
Model of DS Production
  • Must assume knowledge of B(BS?DS X)
  • Account for fragmentation that reduces DS rate
    from BS, CLEO BELLE use same model B(BS?DS X)
    (9211)
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