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Measurement of the spin structure functions g1 and g1 at HERMES

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Presentation on theme: "Measurement of the spin structure functions g1 and g1 at HERMES"— Presentation transcript:

1 Measurement of the spin structure functions g1 and g1 at HERMES
Lara De Nardo TRIUMF/DESY Lara De Nardo

2 Inclusive Deep Inelastic Scattering
in LO QCD is exact in QED Lara De Nardo

3 Measured Inclusive Asymetries
Pzz=0.83±0.03 Azz~0.01 measured DIS cross section inclusive asymmetry kinematic factors param. measured kin. fact. param. Lara De Nardo

4 The data hep/ex-0609039 Pbeam~(53±1.8)% Pbeam~(53±1.0)%
The cut at Q2=1GeV2 identifies the DIS region Full analysis can be found in hep/ex Lara De Nardo

5 Unfolding of radiative corrections
Measured events have to be corrected for: Background tail (radiation from (quasi)-elastic) Radiation from DIS and detector smearing The smearing of events is simulated through a MonteCarlo which includes a full detector description and a model for the cross-section The approach is independent on the model for the asymmetry in the measured region The correction for the systematic effect introduces statistical correlations Lara De Nardo

6 g1 results Statistical uncertainties are diagonal elements of covariance matrix Systematic unc. are dominted by target and beam polarization Lara De Nardo

7 Neutron results g1n negative everywhere except at very high-x
Low-Q2 data tends to zero at low-x Does not support earlier conjecture of strong decrease for Lara De Nardo

8 Integrals Use only deuteron data! theory theory ωD=0.05±0.05
Saturation in the deuteron integral is assumed Use only deuteron data! from hyperon beta decay (a8=0.586±0.031) theory theory ωD=0.05±0.05 (use only Q2>1GeV2 data) From neutron beta decay a3=1.269±0.003 Q2=5 GeV2, NNLO in MS scheme Lara De Nardo

9 Comparisons Integrals provide a fair comparison of the accuracies of various experiments (all correlations taken into account) Proton data comparable with SLAC and CERN expts. Deuteron data is the most precise so far (*): integrals re-calculated in a smaller x range, to match HERMES Lara De Nardo

10 Conclusions HERMES has measured g1 for proton and deuteron for <x<0.9 and 0.18 GeV2 <Q2<20 GeV2 Measured results are correlated no longer systematically but statistically Integrals provide a fair comparison for the statistical accuracy of various experiments: Proton data precision is comparable with CERN and SLAC Deuteron data is the most precise so far The deuteron integral is observed to saturate a0 = ± 0.011(theor) ± (exp) ± (evol) at 5GeV2 agreement with COMPASS data: a0(COMPASS)= 0.35 ± 0.03(stat) ± 0.05 (syst) at 3GeV2 Lara De Nardo

11 EXTRA SLIDES Lara De Nardo

12 QCD fits to g1 world data Without HERMES g1d With HERMES g1d
(test done with BB code, Nucl.Phys.B636(2002)225) As effect of the inclusion of the HERMES data, the gluon moment goes from 0.32±0.47 to 0.22 ±0.39. The effect on the other parton distributions is much less visible ∆S =0.22 ± 0.11 ± 0.05(exp) ± 0.06(theo) H.Boettcher, private communications Lara De Nardo

13 Bjorken Sum Rule Assuming the validity of the BSR, and the saturation of the deuteron integral, we can estimate the proton integral in the unmeasured low-x region: proton integral a3,αs,ωD deuteron integral Q2 evolution Lara De Nardo

14 More on Integrals Evolution to a common Q2=Q20 Integral
Use same code as BB fit (Blumlein&Boettcher, Nucl.Phys.B636(2002)225) Evolution to a common Q2=Q20 Integral Statistical uncertainty on the integral Lara De Nardo

15 The integrals at Q2=5 GeV2 Lara De Nardo

16 The HERMES Spectrometer
Kinematic Range: 0.02 < x < 0.8 at Q2 > 1 GeV2 and W > 2 GeV Reconstruction: dp/p < 2%, dq < 1 mrad Internal Gas Target: unpol: H2, D2, He, N, Ne, Kr, Xe , He , H , D , H Particle ID: TRD, Preshower, Calorimeter : Cherenkov, 1998: RICH Lara De Nardo

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