Tuning of Generator LUARLW for R Scan at BESIII Haiming HU (IHEP, CAS)
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Transcript of Tuning of Generator LUARLW for R Scan at BESIII Haiming HU (IHEP, CAS)
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Tuning of Generator LUARLW for R Scan at BESIII
Haiming HU(IHEP, CAS)
(g-2)mu: Quo Vadis7-10 April 2014Institut fur Kernphysik, Uni. Main
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Outline☞ Motivation
☞ Some related problems need to solve
☞ Main LUARLW parameters need to tune
☞ Preliminary tuning results
☞ Work next to do
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Motivation
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R scan at BESIIIBESIII finished two phases of R scan data taking:
First phase: (2012.05.28 06.08)J/ scan: 3.050 3.12 GeV R scan: 2.23 – 3.40 GeV Second phase: (2013.12.09 2014.01.26)R scan: 3.85 4.60 GeV
Two scans cover the whole BEPCII energy region
Main goals : R value Resonant line shape and resonance parameters …… 4
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R measurement in experiment
Experimental expression:The basic tasks of R measurement: Data taking (raw data)
Data analysis (BG removing, hadronic selection, luminosity measurement)
Theoretical studies (ISR calculation, generator tuning, efficiency)
Error analysis
Theoretical definition:
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MC and ISR in R measurementR value experiment is to measure the hadronic cross section.
Observed total cross section:Not physical quantity, experiment dependent.
Total cross section in physics :
Hadronic detection efficiency:
ISR factor :
Main error :
Born cross section in physics :
Physical quantity,experiment independent.
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Energy dependence of (1+)
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Initial state radiation factor:
The ISR factor (1+) is energy dependent. Energy dependence of (1+) reflects the energy dependence of the Born cross section 0(s).
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Problems need to solve
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Main problems in (1+) calculation
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Interference: According to quantum mechanics principle, if an exclusive hadronic state can produce via N channels, it has N Feynman diagrams with amplitude Ai, the differential cross section:
The measured distributions certainly contain interference effects.
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Main problems in (1+) calculation
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Interference: In R scan above 3.85 GeV , DD states can produce via both continuous and resonant modes, the differences between them are the propagators
In QCD, the expression of amplitude Ac of continuous channel are function of form factors. But in most case, form factors are unknown.
Feynman propagators
For wide resonance, like (4040),(4160) , (4415), the hadronic widths are energy dependent.
Amplitude of resonance Ar is described by Breit-Wigner form:
Ar
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Main problems in (1+) calculation
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Energy dependence of hadronic width: for unstable particle, the width 1/ lifetime . the calculation of relay on nonperturbative QCD, one has to employ phenomenological models. For example:
Simple squared-potential well model:
increase with the energy s = Ecm2 = W2 smoothly. This model is too simple to describe the details of the hadronic decay dynamics.
L
2'D
2Dffff
L
12Lf
RfR )M,M,s(
s21PPrZ
BZ
G)s(cccc
cc
strong interaction scale ~ 1-3 fm
final state decay momentum
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Heavy family has three decay modes :Effective Hamiltonians :
Energy dependent width :(VPP)
(V PV)
(V VV)
Where, GR are the generalized form-factors, and are the scalar functions of the 4-momentum of the initial and final particles. But no enough knowledge about them, they have to be treated as the free parameters.
Main problems in (1+) calculation Hadronic width in equivalent interaction theory
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Model dependence of line shape Hadronic width:squared-potential well model
Hadronic width:equivalent interaction theory
PDG 2008 2014
Different model cause different resonant line shape.
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PDG cites BESII measurements
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Line shape measured at BESIII
On line cross section of newly taken above 3.85 GeV
What Model
result
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D tagDetermination of need measure the branch ratio of DD states. We are going to use D tag package selecting DD events.
Recoiled D
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D tag
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D tag
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D tag
At present, our analysis is different from the measurements by CLEO, we have to check our method carefully.
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Main parameters to tune
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Pictures of Hadronic Production
Hadronization belongs to QCD nonperturbative problem, and one has to employ phenomenological models.Two typical models: Cluster decay model (HERWIG)
String fragmentation model (JETSET/PYTHIA) 21
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hep-ph/9910285
Motivation for Developing LUARLW
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LUARLW simulation LUARLW can simulate the productions and decays of inclusive continuous channels and JPC = 1 resonances with ISR return from 2 5 GeV to meet the needs of R scan.
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Bose-Einstein 关联Simulation of radiative events
Momentum and polar angle distribution of radiative photon:
In MC, hadronic events are classed into two types:① Nonradiative events Born, soft (k<k0) and virtual radiation. The effective c.m.s. energy of the hadronic system equals to the initial e+e energy
Weight:
② Radiative events Hard photon with k>k0, the effective c.m.s. energy of the hadronic system smaller than the initial e+e energy, s’=s(1-k)
Weight:
Note: for the narrow resonance, the effect of energy spread must be considered
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Multiplicity distribution
Define partition function for string n hadrons:
Multiplicity distribution for string fragmentations:
At some approximations:
may use QCD exponential form
where c0, c1, c2, a, b, c are parameters to be tuned using data.
In MC simulation, various events are sampled according to multiplicity distribution of preliminary hadrons Pn, which can be derived from the Lund area law.
An
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Main parameters to be tuned Parameters and in Lund area law
Parameters PARJ(*) in JETSET
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PARJ(01)=0.15 !p(qq)/p(q) suppression of diquark-antidiquark productionPARJ(02)=0.30 !p(ss)/p(dd,uu) suppression of s quark production PARJ(03)=0.75 !P(us)/P(ud))/(P(s)/P(d)) extra suppression of strange diquarkPARJ(04)=0.10 !P(ud1)/P(ud0) suppression of spin 1 diquark to spin 0 onesPARJ(05)=0.50 !P(BMB)/[P(BB)+P(BMB)] relative probability for BMB to BBPARJ(06)=0.50 !extra suppression for having a ssbar PARJ(07)=0.50 !extra suppression for having a strange mesonPARJ(11)=0.55 !ratio of light meson with spin 1/0 PARJ(12)=0.55 !ratio of strange meson with spin 1/0PARJ(13)=0.75 !ratio of charm meson with spin 1/0 PARJ(14)=0.05 !ratio of S=0 meson with L=1, J=1 PARJ(15)=0.05 !ratio of S=1 meson with L=1, J=0 PARJ(16)=0.05 !ratio of S=1 meson with L=1, J=1 PARJ(17)=0.10 !ratio of S=1 meson with L=1, J=2
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Functions of the main parametersMultiplicity distribution
Parameters PARJ(**) Fragmentation hadrons
Momentum distribution
An
fragmentation hadrons
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Goal of tuning
Use two sets of parameters to control the simulations of continuous and JPC = 1 resonant states.
LUARLW could agree with data well for most of the inclusive distributions and DD final states at all energies.
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Preliminary tuning
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Multiplicity below open charm
2.23 3.65 GeVRed dots: BES dataBlue : LUARLW
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2.23GeV 2.40GeV 2.80GeV
3.093GeV J/ 3.1055GeV
3.40GeV 3.65GeV
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Multiplicity above open charm
3.25 4.59 GeVRed dots: BES dataBlue : LUARLW
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3.850GeV
4.100GeV 4.260GeV 4.360GeV
4.410GeV 4.450GeV 4.590GeV
3.85GeV 4.000GeV 4.050GeV
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2.23 3.65 GeVRed dots: BES dataBlue : LUARLW
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Polar Angle cos below open charm
2.23GeV 2.40GeV 2.80GeV
3.093GeV
J/
3.1055GeV
3.40GeV 3.65GeV
J/
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Polar Angle cos above open charm
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3.85GeV
4.00GeV 4.05GeV
4.100GeV 4.260GeV 4.360GeV
4.410GeV 4.450GeV 4.590GeV
3.850GeV
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Momentum below open charm
2.23 3.65 GeVRed dots: BES dataBlue : LUARLW
2.23GeV 2.40GeV 2.80GeV
3.093GeV J/ 3.1055GeV
3.40GeV 3.65GeV
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Momentum above open charm
3.850GeV 4.00GeV 4.05GeV
4.100GeV 4.260GeV 4.360GeV
4.410GeV 4.450GeV 4.590GeV
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The parameters in LUARLW are tuning based on the data samples taken at BESIII from 2.23 4.59 GeV. Present status: LUARLW is tuned using two sets of parameters corresponding to the below and above open charm thresholds data separately, but now the parameters of LUARLW are far from the well tuned.
Criteria for inclusive hadronic events need to fix. D tag package using for selecting DD final states has to study further. Next to do: Continue tuning the LUARLW parameters. Study the theoretical calculations for interference effects. Study the width energy dependence of (4040),(4160) and (4415). Calculate ISR factor employing above improvements. Check if the related QED generator work well.
Summary
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Back Up
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Key Points of Lund Area Law Hadron production process:“Matrix element”:Lund model:
Transverse momentum (Gaussian): ,Longitudinal momentum (area law): ,Probability for string fragmenting into n hadrons:Fraction of light-cone momentum:
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Solutions of Lund Area Law String 2 hadrons
String 3 hadrons
String n hadrons (n4)
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J/ and (2S) are charmonia with JPC = 1 . Decay modes predicts by QCD
(a) Electric-magnetic lepton decay
(b) Strong interaction decay
(c) Electric-magnetic hadronic
decay
(d) Radiative hadronic decay
(e) Radiative M1 transision
(c) (b) (d) and(e) quark-antiquark triplex gluons double gluons single string closed string parallel strings
Charmonium Decay Modes
In the Lund string fragmentation, J/ and (2S) contain three types of string
structures
Due to Lund area law has the invariant relativistic property, itcan be used to treat substringfragmentation independently.
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Event ListContinum states
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Event ListJ/ production and decay
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Event ListM1 radiative transitionJ/ production and decay
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Event List(2S) production and decay
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Main problems in generator tuning Some of free parameters in LUARLW need to tune via comparing
the related experimental data.
Before parameter tuning, one has to have a set of event selection
criteria and obtain a group of hadronic spectra.
For data below open charm threshold, hadronic events selection
conditions are almost fixed. But for the data newly taken above 3.85
GeV, we are studying the criteria for DD states, there are many
problems to discuss.
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DD DD* D*D*
DDπ
DD*π
Λ+c Λ
c
Sum of all exclusive contributions
Only small room for unaccounted contributions• Charm strange final states
Limited inclusive data above 4.5 GeV• Charm baryons final states
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Interferential in resonant line shapeFor example, the line shape of heavier family
Interferential term
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• Hadron D decay reconstruction to find all possible D candidates (tags)• Check the D tag information if no tag is found, the
event is discarded• Only the events with tags are kept , and compare
data with MC• Tag methods : single D tag and Double D tag
D tag
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D-Tag Candidates (1) • ED-Ebeam
• mBC
• D0 modes : K+π-,K+π-π0, K+π+π-π-
• D+ modes: K-π+π+, Kπ+π+π0, Ksπ+, Ksπ+π0, Ksπ+π+π-, K-K+π+
• Ds+ modes: KsK+,K-K+π+,KsK+π0
• Charge-conjugate modes implied
D tag
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D-Tag Candidates (2)• Ingredients:
– charged K/π pass vertex and PID cuts– Ks from π+π+ , π0 from γγ, invariant mass cuts
• Cut on ΔE and fit mBC distributions to extract yields• Analyze MC samples with same procedure• Compare Data’s distribution with MC’s
D tag
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Summary for D tag prestudy
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e+ e
BESIII detector
true raw data
reconstruction
data analysis results
generatorevent simulation
detector simulation
MC raw data
e+ e collide
hit, interaction,production, decay, noise, BG, signal
trigger, digital, data record
MC
MC detector efficiency
reconstruction
data analysis calibrationtracking
BGs, signal
event produce
Procedure of R measurement
systematical error
central value error
True processes
Simulation procedures
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Compare true data with MC simulated distributions
Triggertrg
Raw data
Generator LUARLW
BESIII simulation
Eventselection
Nobs data
Ngen data (unknown)
Ngen MC
NobsMC
BES IIIraw dateTune
parameters
If:1. LUARLW “correct” particles, ratio, momentum …2. BES simulations reliable time、 space, decay…
had Nobs
dataNgendata
= Nobs
MC Ngen
MC
then: all distributions of data and MC simulations agree well good MC parameters set
Parameters Tuning Flow Chart
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