measurement of f and r on nuclear targets in the …...physics motivation quark hadron duality to...
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Measurement of F2 and R on Nuclear Targets in the Nucleon Resonance Region
Vahe Mamyan
April 28 2009
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Physics Motivation✔ Quarkhadron duality to investigate the transition from the
perturbative to the non perturbative region of QCD.✔ Understand the nuclear dependence of R and it's relation to
nuclear physics.✔ Separation of vector and axialvector components in neutrino
scattering is only possible if the vector part is provided from electron scattering experiments.
✔ Experiments like MINERvA, MiniBONNE, K2K intend to study neutrino oscillations. Nuclear structure functions will be used as input data for these experiments.
✔ Measurements of SF in the resonance region may allow to determine SF in the high x region which is kinematically inaccessible.
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QCD and the Strong ForceQCD is the theory of strong interactions. Two of its most
important properties are: Asymptotic freedom, quarks are considered free at
small distances. Quark confinement, no free quark was discovered.
No phase transition from confinement to asymptotic freedom.
The phenomenon of quarkhadron duality can help to investigate the nature of the transition from the perturbative (asymptotic freedom) to the non perturbative (quark confinement) region of QCD.
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QuarkHadron Duality
E.D. Bloom and F.J. GilmanPhys. Rev. Lett. 25, 1140 (1970)M2
n Q2=∫
0
1
dx ˙xn−2 F2 x ,Q2
Bloom and Gilman: the average over resonances produced in eN scattering closely resembles the scaling function measured in the deep inelastic region. Explaining observed duality in the basis of QCD is a major
step in understanding the nuclear force. Moments of the Structure Functions.
✔ Theoretical basis for duality is OPE.✔ Duality can happen if higher twist contributions are small or cancel.
M2n = ∑=2,4,. .
∞ A
n s Q
2
Q−2
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The Nuclear Dependence of R
Picture from E04001 proposal
LeftWorld's data of R at high Q2 in the DIS region for nucleons and nuclei.Right SLAC E140 data, nuclear dependence of (RARD) in DIS.
R= L
T
=F L
2xF1
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Picture from E04001 proposal
A comparison of the ratio of cross section of iron to deuterium in the resonance region versus in the DIS region. This data support that there are no nuclear dependence of R.
=2x
114M2 x2/Q2
Nachtmann scaling variable
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The Nuclear Dependence of R
Plot from G.A. Miller(Phys.Rev. C64, 022201)
The measurement of R in the kinematic region of this experiment provides information about the dynamics of nuclear force inside nuclei.
Study of A dependence of thelongitudinal cross section.
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Inelastic Electron Scattering
d2
ddE '=
42E ' 2
Q4 [cos2
2W 2 , q2
2W1 , q2sin2
2 ]
d2
ddE '=
2
Q4
E 'E
L
W
W=W 1 g
W 2
M 2p p
W 4
M 2qq
W 5
M2 p pqq
Since the Lμν is symmetric in μν and qμνWμν = 0 (gauge invariance) there are only two independent structure functions, W1 and W2.
One photon exchangeapproximation.
If the initial proton is not polarized the general form of hadron tensor can be written as
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The two structure functions are related to photoabsorbtion cross section for transverse photons and longitudinal photons.
W 1=K
42T where T=
12+
W 2=K
42T L
Q2
Q2
2
K=2MP−Q2
2MP
d2
ddE '=TL =
E ' W 2−M P
2
2Q2 M P E 1−=[12 1
2
Q2 tan2
2 ]d2
ddE '=
42
x W 2−M p
2 [2xF1 x , Q2
1 4MP2 x2
Q2 F2 x ,Q2−2xF1 x , Q2
]
is longitudinal
is purely transverse,F1 x ,Q2
F L=14MP
2 x2
Q2 F2−2xF1R=L
T
=FL
2xF1
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Neutrino Structure Functions
W 1=K
G2RL W 3=
KG2
2M
Q2
2 R−L W 2=K
G 2Q2
Q2
2 RL2 S
In neutrino scattering, analogy to electron scattering, W absorption cross section for left, right handed and scalar is .L ,R ,S
Conservation of vector current in EM processes allows to relate structure function to it's counterparts in neutrino scattering for specific isospin final states.
✔ Electromagnetic scattering probes the charge of the partons.✔ Neutrino scattering probes the flavor composition of the partons (charge conservation at the quark vertex).
One important difference from EM case is that W1,2 contain both VV and AA terms. W3 is a result of VA interference.
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Relation of Structure Functions in QPM
F2l N
F2N=
518 1−
35
x sxs−xc−x cx qx q
This relationship is known as 5/18 ths rule.The relation of charged lepton scattering structure function to neutrino scattering structure functions is an important achievement of Quark Parton Model.
This relation was confirmed experimentally!
F 2l x =∑
i
ei2 x f i x Electromagnetic structure function.
F 2 x=2∑
i
[x qi x x qi
x ] Neutrino structure function.
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Rosenbluth Separation Technique
Rosenbluth separation can be done by making measurements at two or more values of ε for fixed W2 and Q2.
d2
ddE '=TL
Flux of transverse virtual photons.
Relative flux of longitudinally polarized virtual photons.
R=L
T
=FL
2xF1
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Experimental Hall CHMS
Electron beam energy – 0.7 – 5.7 GeVHMS – High Momentum Spectrometer Maximum central momentum – 7.5 GeV/c Momentum bite – 15 % Solid angle – 6 msr Luminosity > 1038 cm2 sec1
Beam line
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Experimental Setup
XeAe +→+ '
Drift Chambers,Horizontal and vertical
Vertically and Horizontally segmented hodoscopes
Gas Cerenkov
Target Scattering Chamber
e e´
Electron Beam
HMS
X
Detector Hut
Gas Cerenkov and calorimeter
provide pion rejection of
10000:1 at 1 GeV
Calorimeter
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Drift Chambers
Two drift chambers to measure particle coordinates and momentum.
Sense wires are 1 cm apart, gasis a mixture of argon and ethane.
Coordinate resolution is about 300 mμ .
Each drift chamber has six planes to measure particle angles. Covers 113x52 cm2.
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Hodoscopes
Four hodoscopes for trigger.Each paddle is 1 cmthick and 8 cm wide.
Hodoscopes are grouped in two horizontalvertical (XY) pairs.
X hodoscopes have 16 horizontally placed scintillators.Y hodoscopes have 10 vertically placed scintillators.
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Gas Cerenkov
Gas Cerenkov is used for PID and trigger.
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Gas Cerenkov
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Calorimeter
Calorimeter is used for trigger
and particle identification.
E /E=a /Eb /Ec
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TriggerELLO – requires Cerenkov signal and two out of
✔ At least one layer from S1 and S2✔ At least 3 layers of S1 and S2✔ Low energy signal from Calorimeter's first layer
ELREAL = ELLO OR ELHI
ELHI – requires all ✔ High energy signal from Calorimeter's first layer✔ At least 3 layers of S1 and S2✔ Calorimeter energy above fixed threshold
Trigger efficiency is very high thanks to using different combinations of Hodoscopes, Cerenkov and Calorimeter.
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Trigger Efficiency
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Kinematics Range
New data with Q2 > 3 GeV2
Targets : C, Al, Cu, Fe.
Different epsilon values for same Q2 and W2, allows LT separation.
New data compliments data from experiment E02109.
Measurements for each energy are done at least for 3 different angles. Wide epsilon range allows Rosenbluth separation.
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Precision Cross Section Measurement High statistic and good systematic precision. Wide range of counting rate, from a 1 kHz to 1 MHz. Keep trigger
efficiency high for all rates. Linearity of detector response. Charge measurement by Beam Current Monitors. Corrections. Background. Acceptance. Detector efficiency (Cerenkov, Calorimeter). Tracking efficiency. Radiative. Bin centering.
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Events Selection and Backgrounds Gas Cherenkov detector for pion
rejection. Electromagnetic calorimeter to
increase pion rejection power at low energies.
Combined pion rejection power of better then 100:1 for momentum range 0.44.2 GeV.
Background e from π° and γ decay, Charge Symmetric Background (CSB) – Subtracting positrons for the same kinematics at positive HMS polarity.
Negative pions π- corrected after applying CSB.
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Backgrounds CSB
)1))((exp()log(),( −′−⋅⋅==′ EEbeamSlopeConstconstE θσ
Cross Section(CS) fit function has exponential form, with constraint CS(E’=Ebeam,θ)=0.
Cross section is interpolated by a polynomial in theta and used in CSB subtraction.
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Cross Section ExtractionCross section
Where:
A(E΄,θ): acceptance correction. L: integrated luminosity. Eff: total efficiency of detecting an electron.
A(E΄,θ) acceptance correction is calculated from
Monte Carlo.
d2 , E '
ddE '=
YieldAE ' ,××L×EFF
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Radiative and Bin Centering Corrections
Elastic Quasielastic Inelastic
IE+ QE rad. corrected CS
Bin correction factor
Bin centered CS, FINAL !
IEQEexp
, E ' = Allexp−RadEl
mod/RadAll
mod−RadEl
mod× IEQE
mod
BC i , E j ' =RadAllmod
o , E j ' /RadAllmod
i , E j '
o , E j=
∑j
n
i , E jBC i , E j/ i , E jBC i , E j2
∑j
n
1 / i , E jBC i , E j2
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Preliminary ResultsCarbon
Aluminum
Copper
Iron
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Cross Section Ratios σA/σD
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Global Fit and Iteration Procedure Model cross section for nucleus is based on the empirical fit of proton and deuterium.
F1, F2 inelastic are based on:✔ Empirical Fit to Precision Inclusive ElectronProton Cross Sections in the Resonance Region hepph/0712.3731.
✔ Empirical Fit to Inelastic ElectronDeuteron and ElectronNeutron Resonance Region Transverse Cross Sections hepph/0711.0159.
F1, F2 quasielastic are based on: ✔ Super scaling from Sick, Donnelly, Mairon nuclth/0109032.
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Global Fit – Structure Functions
W 1A=2 Z F1
DA−2 Z 2 F1
D−F1
P
M P
W 2A=W 1
A , Corr1RD/1
2/Q2
Meson Exchange Current, pure empirical form to improve the
fit. W 1A ,Corr
=W 1AW 1
MEC
Where MEC term is added to improve the fit. The functional
form does not any physical meaning.
It is assumed that R is the same for proton and neutron.
Isoscalarity correction, takes into account the excess of neutrons
RD is evaluated by Fermi smearing.
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Global Fit – EMC effect
RF2
Ax ,Q2
=F2
A x ,Q2
AF2nucleon
x ,Q2
F1A=M P W 1
A EMCCORR x , A F2A=W 2
A EMCCORRx , A
Nuclear structure functionsare different from structure functions of nuclei.
In our fit we correct that difference.For x>0.125 SLACE139 fit was used.For x<0.00850.09 Amaudruz et al Z. Phys C. 51,387(91).
d2
ddE '=
42E ' 2
Q4 [cos2
2W 2 , q2
2W1 , q2sin2
2 ]
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Global Fit Results
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Global Fit Results
Percentage of points which agree with the fit within given deviation from unity.
Frequency distribution for the deviations from unity of the ratios of data to fit.
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Summary JLab’s Hall C allows high precision measurements of nuclear
structure functions by performing Rosenbluth separation. New data in Nuclear Resonance region enhances our
knowledge of nuclear structure. Quarkhadron duality gives an opportunity to study possible
link between confinement and asymptotic freedom. Measurements of nuclear structure functions FL, F1, F2 allow
the study of electromagnetic and weak structure. Reduction of uncertainties of neutrino oscillation parameters
in future neutrino oscillation experiments.
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Appendix
du
ud
us
ud
du+
su+
u d+
u s+
su