Wei Luo Lanzhou University 2011 Hall C User Meeting January 14, 2011

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Presentation transcript:

Wei Luo Lanzhou University 2011 Hall C User Meeting January 14, 2011 E07-002 Update: Wide-Angle Compton Scattering Wei Luo Lanzhou University 2011 Hall C User Meeting January 14, 2011 Outline: Brief overview of the physics of Wide-Angle Compton Scattering Experimental technique Data analysis update Preliminary result

Physics of Wide-Angle Compton Scattering In the wide-angle regime(s, -t, u >>mp2), Proton Compton Scattering is a powerful probe of proton structure. The physics is similar to that in ep elastic and DVCS. It is one of the least understood fundamental reactions in the several GeV regime. Which mechanism is dominate in a few GeV regime? handbag (one active quark ) pQCD (two gluon exchange)

Physics of Wide-Angle Compton Scattering Disagreement with pQCD predictions Modern GPD shows good agreement s = 6.9 GeV2 -t = 4.0 GeV2 s = 8.0 GeV2 -t = 2.2 GeV2

Experimental Technique Focal Plane Polarimeter Focal Plane Polarimeter measures the spin asymmetry of the proton. BigCal detects the scattered electrons and photons. mixed photon/electron beam High Momentum Spectrometer (HMS) detects recoiled proton BigCal Calorimeter Magnet deflects electrons down

Data Analysis Update WACS+π° epγ ep Assuming two-body kinematic correlation to select WACS events. Three main reaction channels: WACS+π° epγ With ep elastic events: BigCal timing and energy calibration FPP analyzing power calibration epγ polarization components ep

WACS events and background Cut: Coincidence timing 3.6 GeV<Ebeam <3.98 GeV |δx|<10 cm |δy|<35 cm Background mainly comes from: π° photoproduction, polarization could be extracted simultaneously with WACS events epγ background estimated by simulation: 10.6% of WACS events

Analyzing power & polarization of epγ 0.151 +/- 0.001 Electromagnetic form factor ratio: 0.705 +/- 0.016 Transverse polarization: Pt = - 0.143 +/- 0.003 Longitudinal polarization: Pl = 0.471 +/- 0.003 Note: Momentum dependence of analyzing power have been corrected for WACS events.

Preliminary results COSY spin procession model used to in maximum-likelihood program instead of simple dipole approximation Event by event background correction applied based on the π° contamination epγ correction applied

Preliminary results PRELIMINARY Transport result into c.m. frame: KLL = 0.525 +/- 0.070 KLT = 0.125 +/- 0.067 Comparing to simple dipole results: KLL = 0.506 +/- 0.052 KLT = 0.063 +/- 0.052 Systematic error not included Further evidence that WACS proceeds through interaction of a photon and a single quark PRELIMINARY E07-002 Preliminary result E99-114 result

Summary WACS is a powerful probe of proton structure Preliminary result of E07-002 disagree with theoretical models, further investigation needs to be done. Random background needs to be taking into account Induced polarization component Systematic errors

Backup slide Combined beam: 9% Cu radiator in front of 15 cm LH2 target. The measured min and max beam energy are defined by HMS acceptance. Distribution of expected and measured hit position in BigCal: ep WACS π°