Recent BES charmonium results Frederick A. Harris University of Hawaii Jiangchuan CHEN Institute of...
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Recent BES charmonium results Frederick A. Harris University of Hawaii Jiangchuan CHEN Institute of High Energy Physics Beijing, China HEP2003 Europhysics Conference on High Energy Physics July 17 – 23, Aachen, Germany Representing:
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Transcript of Recent BES charmonium results Frederick A. Harris University of Hawaii Jiangchuan CHEN Institute of...
Recent BES charmonium resultsRecent BES charmonium results Frederick A. Harris
University of HawaiiJiangchuan CHEN
Institute of High Energy PhysicsBeijing, China
HEP2003Europhysics Conference on High Energy Physics
July 17 – 23, Aachen, Germany
Representing:
OUTLINE
Introduction J/ p p-bar c mass, width, and BFs c Λ Λ-bar (2S), J/ KSKL (3770) π+π -J/ψ Summary
The Beijing Electron Positron Collider
L ~ ~51030 /cm2s at J/ peak
Ecm~2-5 GeV
A unique e+e- machinein the -charm energyregion since 1989.
Beijing, China
BESII Detector
VC: xy = 100 m TOF: T = 180 ps counter: r= 3 cm MDC: xy = 220 m BSC: E/E= 22 % z = 5.5 cm dE/dx= 8.5 % = 7.9 mr B field: 0.4 T p/p=1.7(1+p2) z = 2.3 cm
BESII Monte Carlo Simulation
•A Geant3 based package SIMBES for BESII simulation. •We check the data/MC consistency in J/ψ e+e-, μ+μ-, pp, ρπ, ΛΛ high purity channels. The consistency is reasonable.
•It is applied in the BES analysis at J/ψ energy region the first time.
Data Collected with BESI and BESII
This year: ~20 pb-1
below (2S) ~ 6 pb-1
World J/ and (2S) Samples (×106)
J/ (2S)
0
10
20
30
40
50
60
MarkI I I DM2 BES I BES I I
0
2
4
6
8
10
12
14
MKI MKII MKIII CBAL BESI BESII
NN bound states (baryonium)??
+ n +
deuteron:
loosely bound 3-q 3-q color singlets with Md = 2mp-
baryonium:
loosely bound 3-q 3-q color singlets with Mb = 2mp-?
attractive nuclear force attractive force??
There is lots & lots of literature about this possibility
study pp from J/pp
ppe+e
Bardin etal
e+ehadronsFENICE e+e6
2mp
2mp
Fit: M = 1870 ± 10 MeV= 10 ± 5 MeV
R. Calabrese PEP-N work-shop proceedings
DM2 unpub.
Motivations:Is there a narrow JPC=1 pp system near Mpp
=2mp?
study pp from J/pp•C-parity = +
•S (P?)-wave (for Mpp 2mp)
• probes JPC= 0(0?)states
•complements ppee and ee annihilation
•unpolluted (by other hadrons) environment
Use BESII’s 58M J/ decays
J/ppSelect J/pp4-C kinematic fit
dE/dx for proton id
non-pp bkg small
main bkg from J/pp
????
• J/ccpp (calibration reaction)
Study J/0pp bkg with MC & data
J/0pp (data)
three-bodyphase spaceMonte Carlo
J/0pppp (MC)
M(pp)-2mp (GeV)
no peak!!
Fit to data
M=1859 MeV/c2
< 30 MeV/c2 (90% CL)
J/pp
M(pp)-2mp (GeV)
0 0.1 0.2 0.3
3-body phase spaceacceptance
2/dof=56/56
fitted peak location
acceptance weighted BW +3 +5
10 25
PPbar cos distribution
1+cos2(expected for
J/)
sin2
M(pp)<1.9 GeV
PP
mass determination bias
threshold
observed peak
BW “peak”below-
threshold mass & widths measurement
s can be biased
when there is background
include possible biases as(asymmetric) statistical &
systematic errors
if what we see is an S-wave resonance:
M=1859 MeV/c2
< 30 MeV/c2 (90% CL)
+3 +510 25
Phys. Rev. Lett. 91, 022001 (2003).
J/pp Results
c ParametersPrecise (mJ - mc) needed for potential models.But c mass not well determined: PDG02 CL = 0.001
Previous BES Results •4 M(2S) Sample: Phys. Rev. D60 (1999)• 7.8 M J/ Sample: Phys Rev.D62 (2000)
Width Measurements
C measurements with BESII 58 M J/ sample
• Channels: J/ C , C K+K-+- , +-
+-, K+/- K0S-/+, , and pp.
• Use PID for /K/p separation.• Select events based on chisquare from
kinematic fit. • Use Umiss = Emiss – pmiss and P2
t (transverse momentum relative to ) to remove 0
background.
M(pp)
J/ C , C PP
M(K+K-+-) M(+- +-)
M(K+/- K0S-/+)
M()
Results: Mass and WidthResults: Mass and WidthCombined fit of five channels:M(C) = 2977.5 1.0 1.2 MeV/c2
(C) = 17.0 3.7 7.4 MeV/c2
PDGM(C) = 2979.7 1.5 MeV
(C) = 16.0 +3.6-3.2 MeV
Phys. Lett. B555, 174 (2003)Phys. Lett. B555, 174 (2003)
J/ ηc
Results: Mass and WidthResults: Mass and Width
PDG2002
BES2003
J/ ηc
Results: Branching Fraction Preliminary
Systematic Errors
Product BranchingFractions
J/ ηc
Results: Branching Fraction Preliminary
Results: Branching Fraction Preliminary
Dividing by B(J/ ηc ) = 1.3 ± 0.4 % (PDG2002)
B(ηc φ φ) is smaller than PDG and agrees with Belle
measurement (hep-ex/0305068).
† H.C. Huang et al., hep-ex/0305068 * Calculated from results in F. Fang, et al., PRL 90:071801,2003.
J/ ηc
CJ Λ Λ-bar
Color octet mechanism (COM) important for P-wave quarkonium decays.
G. T. Bodwin et al., Phys Rev. Lett. D51, 1125 (1995).H.-W. Huang and K.-T. Chao, Phys. Rev. D54, 6850 (1996).J. Bolz et al., Phys. Lett. B392, 198 (1997).
COM and a nucleon wave function give reasonable agreement with BES Γ (cJ p p-bar) and other results.
The partial widths of other baryons can be predicted:
Γ (cJ Λ Λ-bar) ~½ Γ(cJ p p-bar) for c1 and c2
S. M. Wong, Eur. Phys. J. C14, 643 (2000).
CJ Λ Λ-bar
Here we study:(2s) cJ ΛΛ-bar
p- p-bar +.Select events with 4 charged tracks and > 0 ’s.Use PID for charged tracks. Prob > 0.014C kinematic fit. Select smallest chi-square and require Prob > 0.01.See clear Λ Λ-bar signal.
CJ Λ Λ-bar
Select events around cluster.
See clear lambda peak in m(p).
mΛ = (1114.3 ± 0.5) MeV/c2.
Agrees well with PDG.
CJ Λ Λ-bar
Sideband background Monte Carlo Comparison
Plot m(Λ Λ-bar)
CJ Λ Λ-bar
Main physics backgrounds:
(2s) Λ Λ-bar
0 0-bar
cJ , cJ 0 0-bar
Fit:
• Monte Carlo background shape.
• Background level floating.
Fix cJ widths to PDG values.
Use Monte Carlo mass resolutions.
Fitted masses agree with PDG.
CJ Λ Λ-bar
Results
B(CJ p p-bar)(10-4) 2.2 ± 0.5 0.72 ± 0.13 0.74 ±
0.10
Phys. Rev. D67, 112001 (2003).Phys. Rev. D67, 112001 (2003).
For N((2s) )use (2s) + - J/, J/ p p-bar.Many systematic errors cancel.
PDG
First Observation of ψ(2S) decay to KS0KL
0
and measurement of J/ψ decay to KS0KL
0
Motivations
--Phase between the 3-gluon and single photon annihilation amplitudes:
±90° at J/ψ180° at ψ(2S) two body decay
(M. Suzuki, Phys. Rev. D63 054021(2001)
--12% rule test Br(ψ (2S) KS0KL
0 )=Br(J/ψ KS0KL
0)*12% ?
Br(J/ψ KSKL) comes from DMII and MARK III more than 14 years ago, with relative errors 18%.
--
Here we report a measurement of ψ(2S) decay to KS
0KL0 to test above phase rule.
Event selection criteria
--Only two good charged tracks and assumed to be π+ and π –.
--Neutral clusters Eγtot < 1.0 GeV is used to remove the
backgrounds.
Only reconstruct KS, look at KS momentum for signal
PKs ~ 1.774 GeV
ψ (2S) KS0KL
0
KS0 momentum distribution. The KS
0 mass sideband background is shown by shaded histogram.
KS0KL
0 signal
KS sideband
ψ (2S) KS0KL
0
Background in KS0 momentum distribution. (f) the dots are
data, blue shaded histogram is background from(e), the green shaded region is the sum of the background from (a-d).
χc0 KS
0KS0
ccKKc .)892( 00*1 00
2 SSc KK
ccKKS .)892()2( 00* KS0 mass sideband (f)
Fit of the KS0 momentum
Spectrum: dots are data, andshaded histograms are fromsideband events and other MC simulated backgrounds.
The fit yields 164±14 events, and the efficiency for detecting
with is(41.44±0.49)% from MC.00)2( LKSKS
ψ (2S) KS0KL
0
0SK
(1768.5±3.3)MeV/c
PreliminaryPreliminary
Fit to the KS0 momentum
spectrum: dots are data, shaded histograms are from mass sideband and other MC simulated backgrounds.
Ks mass sideband background
ccKKJ .0)892(*/
(1488.2±0.7)MeV/c
PreliminaryPreliminary
The fit yields 2127±45 events, and the efficiency for detecting with is (37.57±0.22)% from MC.00/ LS KKJ
0SK
Data Analysis
J/ψ KSKL
(With the same way)
Preliminary ResultsPreliminary Results
---
With above branching ratio and the branching ratio of
, from PDG, phase angle
between strong decays and the electromagnetic of the ψ(2S)
to pseudoscalar meson pairs is found to be about 90°
--- )2( S KKS)2(
ψ (2S) KS0KL
0
Preliminary Results
(PDG value: Br(J/ψ KSKL)=(1.08±0.14)×10-4)
The interesting is that Qh is enhanced relative to the “12% rule”, while in most cases where it disagrees, it is suppressed.
J/ψ KSKL
Evidence of ψ(3770) non- decay to π+π – J/ψ
DD
Motivation---ψ(3770) is believed to be a mixture of the 23S1 and 13D1
states of the system and to decay almost entirely to pure .
ccDD
(P.A. Rapidis et al., (MARK-I), Phys. Rev. Lett. 39, 526(1978))
--- Recently, some theoretical calculations point out that ψ(3770) could decay to non- final states.DD
(H.J. Lipikin, Phys. Lett. B179, 278(1986), Y.P. Kuang, Phys. Rev. D65, 094024(2002) )
Data sample and Monte Carlo
-- Data sample: 6.6±0.4 pb-1 of data taken at Ecm=3.773 GeV 1.4±0.1 pb-1 at Ecm=3.738 GeV to 3.885GeV (by BESII/BEPC)
--Event generator: We developed a new generator isrpsi which included J/ψ and ψ(2S) and other resonance production due to initial state radiation effect.
Event Selection for ψ(3770) → π+π J/ψ, J/ψ→ll
4 good charged tracksPID for e and muRemove events with photon conversion4-c kinematic fit
In the figure open circles are data, and the histogram are MC. In the (b), the solid smooth curve is the fit to the data.
/)3770( J /)3770( J
/)2( JS /)2( JS
/)2( JS
/)3770( J
Results---Data sample: Number of ψ(3770) = (5.7±1.3)×104
---Signal events: Nevt= 6.8±3.0(Ntot= 9.0 ±3.0, in which 2.2 ±0.4 from backgrounds)
Efficiency: 0.171±0.002
ψ(3770) → π+π J/ψ
Summary
Observation of an enhancement in pp system near 2mp in J/pp. If S-wave:
M=1859 MeV/c2
< 30 MeV/c2 (90% CL)
Exclude all possibilities from known mesons. Baryonium?
+3 +510 25
Summary
New C mass and width:
M(C) = 2977.5 1.0 1.2 MeV/c2
(C) = 17.0 3.7 7.4 MeV/c2
New C Branching fractions - preliminary
Summary
New branching ratio results on B(cJ Λ Λ-bar). Disagrees with Color Octet Model?
First observation of KS0KL
0 in ψ(2S) decays:
Summary
•Measurement of the branching fraction for J/ψ decay to KS0KL
0
•Evidence of ψ(3770) non- decay to π+π -J/ψDD
(PDG value: Br(J/ψ KSKL)=(1.08±0.14)×10-4)
Thank You!
BESII Simulation
A Geant3 based package SIMBES for BESII. It agrees with data well and is applied in the BES analysis at Charm energy region first time.
J/ψ, ψ (2S) hadrons. Where shaded are BES data
and solid histograms are SIMBES results.
JJ//ψψ ψ(2S)ψ(2S)
Ks
KL
π+
π -
Event selection criteria--Only 2 good charge tracks
--The 2 charged tracks are assumed to be π+ and π -.
--Neutral clusters Eγtot < 1.0 GeV
is used to remove the backgrounds.
Only reconstruct KS, look at KS momentum for signal
PKs ~ 1.774 GeV
--Without extra photon
ψ (2S) KS0KL
0
Trigger
PKS>1.7 GeVFig.1 Scatter plot of π+π –
invariant mass versus thedecay length in the transverse XY plane forevents with KS
0 momentum greater than 1.7 GeV/c.
Fit of π+π – invariant mass distribution.
ψ (2S) KS0KL
0
Tigger effect
Fig.3 the comparison of the KS0
decay length. Since no triggereffect in the MC simulation now,use a correction factor (76.0±1.8)%to the MC efficiency for ψ(2S)decay to KS
0KL0
Cut here(LXY>1cm)
Fig.4 The KS0 momentum
distribution. The KS0 mass
sideband background isshown by shaded histogram.
KS0KL
0 signal
KS sideband
Psi(2S)->KSKL systematice erorr
PreliminaryPreliminary
PreliminaryPreliminary
Psi(2S)->KSKL Phase angle
C.Z. Yuan et al. Phys. Lett. B567 (2003) 67-72
