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Transcript of Measurements of R Value and Hadronic Form Factors at BES Haiming Hu Institute of High Energy...
![Page 1: Measurements of R Value and Hadronic Form Factors at BES Haiming Hu Institute of High Energy Physics, CAS, Beijing Novosibirsk, Russian Feb. 27 – Mar.](https://reader035.fdocuments.us/reader035/viewer/2022062717/56649e565503460f94b4e5b3/html5/thumbnails/1.jpg)
Measurements of R Valueand
Hadronic Form Factors at BES
Haiming HuInstitute of High Energy Physics, CAS, Beijing
Novosibirsk, Russian Feb. 27 – Mar. 2, 2006
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Outline R value measurement
e+e-→2(+-) cross section & form factor
e+e-→pp cross section & form factor
Summary
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R measurement
Part 1Part 1
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Introduction
The status of R value for Ecm < 5 GeV before 2000R
Ecm (GeV)
The central values of Rexp between 2 – 3.6 GeV are systematically above the band of the QCD permitted, but RQCD band is covered by the experimental errors within 1R .
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IntroductionThe status of R value for Ecm < 5 GeV after 2000
The error of the R value measured by BES decreased by a factor of 2-3 than previous experiments. The issue is now:
☻ Central values deviate 1 in energy region 2.2-2.7GeV.
☺ Central values coincide at 2.0 and in 2.8-3.73GeV.
R
Ecm (GeV)
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Influence of R on (g-2)
QED had weak2
2g
a a a a
2
2had
2
4
( ) ( )
3m
K sa ds R s
s
In Standard Model
,
(Michel Davier, Pisa, Oct. 8-10, 2003)
Conclusion:e+ e - and experiments are incompatible
SM predictions differ from experiments by
1.9 [e+e- ] and 0.7 []
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Influence of R on (s)
The QED running electromagnetic coupling constant changes with s
Contribution from the vacuum polarization
Where
S. Eidelman (1995 ) H.Burkhardt & B.Pietrzyk (2001)
)( 2)5(Zhad M
)M( 2Z
1
0.0280 ± 0.0007 0.0276 ± 0.00036
128.90 ± 0.09 128.936 ± 0.0046
BES’s R no used used
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Influence of R on Higgs mass fitting
Before 2000 After 2000
New results fromBES and other’swere used
GeVm
GeVm
H
H
170
62 5330
GeVm
GeVm
H
H
212
98 5838
The results of MH from the global fit of the Standard Model using all data
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Determination of sIn perturbative QCD, R value can be expanded as a series of s
...)()()( )3(2)2(2)1()0(QCD Q
sQ
sQ
s
QQ RRRRsR
In principle, one may get s by
solve the equation at each energy point: RQCD(s) =Rexp (s) s (s)
s(3)(3GeV) = 0.369+(0.047+0.123)-(0.046+0.130) J.H.Kuln, hep-ph/0109084
but no physical solution @ 2.5 GeV for central value Rexp = 2.39±0.08±0.15
RQCD(s) changes with s like following curves:
ss s
RR R
Fit s = s (s;)
n
i
QCDRR
12
i
2iiexp2
)(
)]s()s([
3-loop 4-loop 4-loop, not full
hep-ph/0109084 Phys.Lett. B559(2003) 245 hep-ph/0212294
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Charmonium resonant structure
BABAR-PUP-05/029 hep-ex/0506081
BABAR studed initial state radiation event in e+e- γ+ -, observed an accumulation of event near 4.26 GeV in the invariant mass spectrum of the +-, which is named as Y(4260).
BES scanned (nS) structure in 1999
BES
!
hep-ex/0602034 CLEOc reports the Y(4260) in three channels :
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New data sets for R value
Ecm
(GeV)
LBSC
(nb-1)
LMDC
(nb-1)
ΔL/L
(%)
2.60 1231 1229 0.15
3.07 2273 2257 0.75
3.65 6450 6446 0.10
In 2004, BES took data samples at three energy points
Preliminary values
Two methods are used to calculate the integral luminosity :
① by Barrel Shower Counter (BSC) information
② by Main Drift Counter (MDC) information
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Improvement in new measurement Comparing with the methods used in papers Phys. Rev. Lett. 84, 954 (2000) & 88, 101802 (2002)
the five main improvements are adopted now:
1. Only good track being accounted
2. Beam-gas samples are separated from the raw data, and are used in LUARLW tuning (new)
3. Select hadronic events: Ngood 2 Ngood 1
4. 2 good-tracks are requested in the measurement of luminosity (new)
5. Change the cut values to estimate error compare the difference between data & MC for all cuts
These measures are effective to reduce the systematic error further
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Hadronic event criteria
For 2-prong and more-prong events
Hadronic events may be classified as
0-prong, 1-prong, and 2 or more prongs
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Hadronic event criteria
In the present measurement, 1-prong hadronic
events are included with the following criteria:
1-prong good charged track is requested
and which with at least one 0 in the final states
by 1-C fit to reconstruct the decay channel 0
In the previous measurement, only the events with 2 or more-prongs were selected, therefore, the lost 0-prong and 1-prong events will cause the error of the hadronic efficiency.
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Systematic error due to 0-prong events
The criteria for the 0-prong hadronic events:
no charged track is requested
and which with at least one 0 in the final states by 1-C fit to reconstruct the decay channel 0
The error of the efficiency due to the lost 0-prong
events is estimated to be about 0.5 %.
Even in the present measurement, the 0-prong
events are also lost in the selection of hadronic
events, but number of the 0-prong events must
be estimated and used to the analysis of the error
of the hadronic efficiency.
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Lund area law generator
hep-ph/9910285
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Tuning of LUARLW parameters
BES data
LUARLWLhadrons
LBhabha
L
BGgasbeam
MC
had
ee
:
:
:
: *
Method: compare all distributions related to the hadronic criteria between data & MC in the detector level.
Tune LUARLWparameters
It is required that a set of parameters of JESTSET & LUARLW agree with data well in 2.0–3.65 GeV region
There are some free parameters in JETSET and LUARLW, which are needed to be tuned at low energies by comparing with data.
types statistics
Good simulation of hadron production by LUARLW will reduce the systematic error of R measurement.
compare
Monte Carlo
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Distributions related to hadronic criteria
Top : charged track ; Bottom : good charged track
2.200 GeV 2.600GeV 3.070 GeV 3.650 GeV
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Top: ; Bottom: cos of charged track in MDC
2.200 GeV 2.600GeV 3.070 GeV 3.650 GeV
Distributions related to hadronic criteria
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Top : momentum p ; Bottom : deposit energy in BSC
2.200 GeV 2.600GeV 3.070 GeV 3.650 GeV
Distributions related to hadronic criteria
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Top : Px ; Middle :Py Bottom: Pz
2.200 GeV 2.600GeV 3.070 GeV 3.650 GeV
Distributions related to hadronic criteria
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Top : time of flight; Bottom : velocity
2.200 GeV 2.600GeV 3.070 GeV 3.650 GeV
Distributions related to hadronic criteria
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Error of hadronic event criteria & had
The systematic errors for selecting 1-prong and more-prong events are estimated by the difference of the number of events between data and MC for using or no using the every cuts
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Systematic error of R value
)1(L
N~
)1(L
NR
trg
had
hadtrg
had
R value formula:
WhereMCobs
hadMCgenMC
genMCobs
had
had
hadhad N
NN
N/N
NNN~
22
had
had
22
had
had
2
sys 1
]1[
L
L
N~N~
R
R
Estimated by using two sets
of different but reasonable
parameters in LUARLW
The good agreement between data and LUARLW will reduce the error of the number of hadronic events.
Relative error:
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Comparison of main systematic errors
The main relative systematic errors (in %) between the previous and present R measurements @ 3 GeV
items Nhad L had trg 1+ total
previous 3.30 2.30 2.66 0.5 1.32 ~ 5
Present(preliminary
)
1.5 1.5 1.7 0.5 1 ~ 3
The systematic errors for the present measurements are significantly improved than the previous results
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e+ e - → + -+ - cross section
Part 2Part 2
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IntroductionAt low energies, e+e- +-+- () is important to the calculation of (g-2) for it has large production cross section. BABAR used the data with hard photon radiated from the initial state (ISR events), the effective center of mass energies are between 0.6125 ▬ 4.4500 GeV .
CMD2, SND, OLYA, GG2, ND, DM1, DM2, M3N used the data with the fixed colliding energies below 2 GeV.
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The measurement of the 4(s) cross section may also give the information about hadronic form factor. In the mixed vector meson dominant model
Theoretical model
Born cross section:
Final state factor :
Form factor:
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(4 )4
4 (0)(1 )
cbg
trg obs
N N
L
Data analysise+ e- + - + - cross section was measured by following expression
4 event number back-ground number
luminosity trigger efficiency 4 efficiency effective ISR factor
Procedures for data analysis
Event pre -selection 4-C fit
1. error-matrix correction
2. selection criterion QED backgrounds subtraction
1. particle identification
2. collinear-angle cut
Event pre-selection criteria
( Good track helix fit )( 4-momentum conservation)
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2(+-) cross cection Estimation of systematic error @ 3.07GeV
The preliminary results
Ecm L Ecm L2.00 45.81.4 2.80 89.0 1.8
2.20 59.4 3.7 2.90 94.0 2.6
2.40 61.0 1.6 3.00 947 22
2.50 47.0 1.0 3.07 2272.8 36.4
2.60 1231.0 14.8 3.65 6450.4 90.3
2.70 71.6 2.1
Luminosity (nb-1)
Born cross section for 4- by BES and BABAR
Preliminary
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Form factor fittingFitted parameters with MIUNIT
The measured cross section of 4 by CMD2, DM1 and BES and the fitted curve with the formula given by N.N. Achasov & A.A.Kozhennikov
in Phys. Rev. D55, 2663 (1997)
Curve by fitting the theory
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Form factor fittingFitted parameters with MIUNITThe measured cross section of 4 b
y BABAR and the fitted curve with the formula given by N.N. Achasov & A.A.Kozhennikov
in Phys. Rev. D55, 2663 (1997)
Data and theory coincide excellently
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Comparison between two fittings
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Form factor of 2(+-)
Extracted from the BABAR’s measurement
Extracted from the CMD2, DM1 and BES’s measurements
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Part 3Part 3
The Proton Form Factor
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Cross section
E.A.Kureav
V.S.Fadin
The total cross section of e+ e-→ p p is measured by
The Born level cross section may be obtained by performing the various corrections:
number of pp event
Luminosity pp efficiency Trigger efficiency
ISR correction factor Coulomb factor
Final state correction
Sov. Nucl. Phys. 41, 1985, 466 - 472
/1
/
e
Fc
J.Schwinger
Particle, Source and Field
Landau:
,
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Results
%
Relative systematic error
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Form factor fitting
Due to the limited statistics, the existed BES data can not measure the electric GE and magnetic GM at same time.
Under the assumption of |GE| = |GM|≡|G|, the Born cross section is simplified as:
pQCD predicts pp form factor ~[αs(s)] 2, one often uses
Λ= 0.3 GeV is the QCD scale parameter
C is the free parameter in fitting
PLB630,(2005)14-20
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SummaryNew R value data at 2.6, 3.07 and 3.65 GeV ar
e being analyzed. The statistic error is smaller than 1%, and the
systematic error is expected to be about 3%. The cross sections and the form factors of e+
e-2(+ -) and pp have been measured with BESII data.
Prospect: more precise R values and the cross sections and form factors for the important exclusive channels will be obtained at BESIII.