Download presentation
Presentation is loading. Please wait.
1
JLab PAC33, January 16, 2008 Polarization transfer in WACS 1 p p Polarization transfer in Wide-Angle Compton Scattering Proposal 08-017 D. Hamilton, R. Gilman, A. Nathan, and B. Wojtsekhowski, co-spokespersons Outline Mechanism of the reaction is a key question Compton e - > e process and polarization observables WACS present results and experimental program Proposed experiment and expected results
2
JLab PAC33, January 16, 2008 Polarization transfer in WACS 2 p p Two basic options for mechanism: Collective response - several partons involved in high momentum interaction with the photons Individual response - one quark absorbs incident photon and the same quark emits scattered photon Mechanism of the process
3
JLab PAC33, January 16, 2008 Polarization transfer in WACS 3 p p Regge poles - VMD - since 1960’s …, Laget pQCD - two-gluon- Brodsky, …, Guichon&Vanderhaeghen, Brooks&Dixon, Thomson et al. Diquark model - Guichon&Kroll, 1996 Leading quark- Brodsky et al., 1972 GPDs (handbag)- Radyushkin, Kroll et al. CQM- G.Miller Main issues: Competing mechanisms Interplay between hard and soft processes Threshold for onset of asymptotic regime Role of hadron helicity flip Studies of the RCS process
4
JLab PAC33, January 16, 2008 Polarization transfer in WACS 4 p p Exact formalism for CS off electron
5
JLab PAC33, January 16, 2008 Polarization transfer in WACS 5 p p Compton in 1925 Directed Quanta of Scattered X-Rays Arthur Compton and Alfred Simon, PR 26, 3 (1925) recoil electron photo electron
6
JLab PAC33, January 16, 2008 Polarization transfer in WACS 6 p p Cross section of WACS vs pQCD calculations normalization problems, calculations are 3-10 times below data Calculation by Thomson et al Calculation by Brooks & Dixon Cornell dataJLab data
7
JLab PAC33, January 16, 2008 Polarization transfer in WACS 7 p p Single-quark mechanism “handbag” diagram accounts for scattering from quark and introduces the FFs for ++,+-,.. Form factors: R V, R T, R A KN-like polarization observables quark coupling is small compare t WACS in GPD approach Form factors allows to fit cross section
8
JLab PAC33, January 16, 2008 Polarization transfer in WACS 8 p p The plan of proposed experiment proposed -u = 3.6 -u = 2.3 p p
9
JLab PAC33, January 16, 2008 Polarization transfer in WACS 9 p p Result: test of reaction mechanism Proposed for E ~ 4.3 GeV for cm angles 90 o and 110 o ( a 70 o cm data point will be obtained in E07-002)
10
JLab PAC33, January 16, 2008 Polarization transfer in WACS 10 p p Result: test of reaction mechanism Proposed for E ~ 4.3 GeV for cm angles 90 o and 110 o ( a 70 o cm data point will be obtained in E07-002)
11
JLab PAC33, January 16, 2008 Polarization transfer in WACS 11 p p Experiment concept: similar to E99-114 Beam 80% polarized, 80 μA E e = 4.8, ~ 4.3 GeV Photon flux ~ 10 13 eqv. /s; in this experiment it will be boosted by an additional factor 5 with larger calorimeter
12
JLab PAC33, January 16, 2008 Polarization transfer in WACS 12 p p Selection of the WACS events Magnet separates e'/γ, no veto needed, allows higher luminosity
13
JLab PAC33, January 16, 2008 Polarization transfer in WACS 13 p p Focal Plane Polarimeter FPP used in many Hall A experiments FOM = εA y 2 ~ 0.02, so we need ≈1-2 M RCS events Calibrated with ep elastic scattering
14
JLab PAC33, January 16, 2008 Polarization transfer in WACS 14 p p Present proposal (K LL,LT ) has photon energy 4.3 GeV, large s, -t, -u E99-114 Results vs new plan s = 6.9 GeV 2 -t = 4.0 -u = 1.13 PRL 98, 152001 PRL 94, 242001
15
JLab PAC33, January 16, 2008 Polarization transfer in WACS 15 p p WACS research program CS research has significant chance to discover the basic reaction mechanism CS research would be extended for cross sections up to to s = 20 GeV 2 with the 12 GeV upgrade, could possibly find onset of pQCD in exclusive reactions
16
JLab PAC33, January 16, 2008 Polarization transfer in WACS 16 p p Proposed Kinematics E γ = 4.3 GeV, s = 8.9 GeV 2 Large -t,-u Precision data for K LL, and K LT
17
JLab PAC33, January 16, 2008 Polarization transfer in WACS 17 p p Beam Time Request 21 days beam on target in Hall A
18
JLab PAC33, January 16, 2008 Polarization transfer in WACS 18 p p Summary Mechanism of Real Compton Scattering could be found from proposed experiment - need two data points WACS has largely the same physics as FFs and DVCS Experimental technique is well understood and tested This polarization experiment belongs to 6-GeV program Beam time request: 21 days beam on target in Hall A
19
JLab PAC33, January 16, 2008 Polarization transfer in WACS 19 p p Backup slides
20
JLab PAC33, January 16, 2008 Polarization transfer in WACS 20 p p Beam Time Request - by hours 21 days of beam in Hall A
21
JLab PAC33, January 16, 2008 Polarization transfer in WACS 21 p p Reply to TAC comments Installation time ~ < 1 month in Hall A. As suggested by RadCon group the photon radiator will be made from Pb, for which case rad-budget is twice lower than for the standard Cu radiator.
22
JLab PAC33, January 16, 2008 Polarization transfer in WACS 22 p p Polarization observables in QED
23
JLab PAC33, January 16, 2008 Polarization transfer in WACS 23 p p GPD-based prediction for K LS
24
JLab PAC33, January 16, 2008 Polarization transfer in WACS 24 p p NLO GPD-based calculations NLO corrections to the cross section are 10-20% Corrections to polarization observables ~ 1-2% at cm =90 o ~ 10-15% at 120 o
25
JLab PAC33, January 16, 2008 Polarization transfer in WACS 25 p p GPDs and form factors of WACS G A at w
26
JLab PAC33, January 16, 2008 Polarization transfer in WACS 26 p p Systematic Uncertainties By far the largest contribution to systematic uncertainty from dilution factor/background asymmetry stability. In previous analysis, background was fitted with polynomial distribution. In future analysis, a dedicated Monte Carlo (already developed) will be used to better understand background. Expected improvement in systematic uncertainty by factor two or more - dKLL syst ~ 0.01
Similar presentations
