Download presentation
Presentation is loading. Please wait.
Published byGerard Bell Modified over 9 years ago
1
Drell-Yan Di-Lepton Production Why Drell-Yan? Asymmetries depend on PD only (SIDIS→convolution with QFF) Why ? Each valence quark can contribuite to the diagram Kinematics x F =x 1 -x 2 x1x2x1x2
2
Drell-Yan Di-Lepton Production Scaling: Full x 1,x 2 range. needed [1] Anassontzis et al., Phys. Rew. D38 (1988) 1377
3
Drell-Yan Asymmetries Polarised beam and target To be corrected for: NH 3 polarised target:
4
Drell-Yan Asymmetries Unpolarised beam and target Di-Lepton Rest Frame NLO pQCD: λ 1, 0, 0 Experimental data [1] : 30 % [1] J.S.Conway et al., Phys. Rev. D39(1989)92. involves transverse spin effects at leading twist [2] : cos2φ contribution to angular distribution provide: [2] D. Boer et al., Phys. Rev. D60(1999)014012.
5
Angular distribution in CM frame - + N + + - + X @ 252 GeV/c -0.6 < cos < 0.6 4 < M < 8.5 GeV/c 2 cut on P T selects asymmetry 30% asymmetry observed Conway et al, Phys. Rew. D39 (1989) 92
6
Drell-Yan Asymmetries Unpolarised beam, polarised target Even unpolarised beam is a powerful tool to investigate к T dependence of QDF D. Boer et al., Phys. Rev. D60(1999)014012.
7
Weak decay B.R. = 0.9 % 36000 events / 100 days [1] Smith and Vogt Z. Phys. C75 (1997)271
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.