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Презентация была опубликована 11 лет назад пользователемЖанна Ларина
1 Эксперимент OLYMPUS и форм факторы протона С.Белостоцкий
2 FF definition and observables Unpolarized cross section under study for decades Theoretical interpretation Белостоцкий сессия ОФВЭ 2012
3 not ideal but acceptable parameterization Direct measurementsRosenbluth separation Extraction of FFs from unpolarized e-p elastic scattering Белостоцкий сессия ОФВЭ 2012
4 JLAB measurements of recoil proton polarization Polarized JLAB measurements Direct measurements: Белостоцкий сессия ОФВЭ 2012
5 Two photon exchange TPE and beam charge asymmetry Beam charge asymmetry sensitive to TPE: must be measured Most likely explanation Second order corrections affect strongly extracted from unpolarized experiments keeping intact polarized data Белостоцкий сессия ОФВЭ 2012
6 TPE or some other explanations ??? VEPP-3 Novosibirsk CLAS-JLAB OLYMPUS Experiment Белостоцкий сессия ОФВЭ 2012
7 Российские участники OLYMPUS collaboration ПИЯФ С.Белостоцкий Г.Гаврилов Д.Веретенникоков А.Изотов А.Киселев О.Миклухо Ю.Нарышкин Отдел трековых детекторов А.Крившич, В Андреев, Е.Иванов,... Лаборатория радиоэлектроники Л.Уваров Воронежский государственный университет (студенты) К.Суворов, К.Байбуз Белостоцкий сессия ОФВЭ 2012
8 OLYMPUS at DORIS, DESY Hydrogen target region BPM1 BPM2 Target cell elliptical 9x16mm**2. length 60mm, Beam sizes 0.6x0.1mm**2 collimator Study of elastic scattering in identical 2 GeV Doris storage ring GeV 2 GeV beams, 100 mA, change daily, Beam energy stability 0.5 MeV Beam position 0.1mm quasi continuous beam ( topup mode) OLYMPUS Белостоцкий сессия ОФВЭ 2012
9 Olympus detector ep elastic event selection: TOF correlation, energy deposit in TOF counters, ep vertices correlation, co-planarity requirement, angular/momentum kinematic correlations Positron vertex distribution co-planarity Белостоцкий сессия ОФВЭ 2012
10 12 deg. Luminosity monitor ratio must be 1 as TPE expected to be small at low Q**2 Energy deposit in TOF scintillation bar for recoil protons in coincidence with 12 deg. leptons Sci. counters SiPMs, MWPCs, PNPI readout, GEMs Target density measurement Good agreement with MC Белостоцкий сессия ОФВЭ 2012
11 Symmetric Meoller /Bhabha monitor Белостоцкий сессия ОФВЭ 2012
12 Data taking Planned for 3.6 1/fb Two period of data taking in 2012 Febr and Oct.-Nov.Dec.-Janu 2. Doris full stop in 2013 accumulated by December 18 Белостоцкий сессия ОФВЭ 2012
13 Outlook 2013 Survey, upgrade of geometrical file for MC Toroid field mapping Setup disassembly Data analysis: Finalize tracking Dedicated computer (available) Two analysis groups: MIT and PNPI cross-check 2014 Data analysis, consensus, publication Белостоцкий сессия ОФВЭ 2012
14 Experimental and theoretical aspects of the proton form factors symposium 9-13 July 2012, St.Petersburg, Gatchina, Petersburg Nuclear Physics Institute (PNPI) Multi-photon effects in charge lepton proton scattering; Form factors in QCD. Lattice calculations; Beam charge asymmetry in electron/positron proton elastic scattering: overview of current experiments and data analysis; Proton form factors and recoil proton polarization experiments; Proton structure at large momentum transfer; Charge lepton proton elastic scattering at low momentum transfer, proton radius; Form factors in time-like region. Белостоцкий сессия ОФВЭ 2012
15 BACKUP SLIDES
17 Systematic error 0.3% (not shown)
18 CLAS-JLAB preliminary
19 Rosenbluth separation (L-T separation) E S.Belostotski Seminar HEPD, May
20 Extraction of FFs from Unpolarized Elastic e-p Scattering Proton electric form factor Additional problem cross section normalization uncertainty (included in error bars) S.Belostotski Seminar HEPD, May
21 JLAB Polarization Transfer experiment (V.Punjabi, C.F.Perdrisat, et al. Phys.Rev. C71, 2005) dipole HRSp proton polarimeter Vertical bending Θ B =45 deg. dipole HRSe EMC Polarized e-beam P e ~ , GeV, 5-15 μA. JLAB Hall A two-arm spectrometer (top view) S.Belostotski Seminar HEPD, May
22 JLAB Polarization Transfer Results (V.Punjabi, C.F.Perdrisat, et al. Phys.Rev. C71, 2005) This experiment O.Gayou et al. phys.Rev.Lett. 88, 2002 disagreement with LT separation results Fits to LT separation world data subset of world (LT) data S.Belostotski Seminar HEPD, May
23 TPE Radiative Corrections & TPE graphs Contribution from two photon exchange diagram not taken into account in traditional analysis may be an explanation S.Belostotski Seminar HEPD, May
24 P.A.M. Guichon and M. Vanderhaeghen, PRL91, (2003) P.G. Blunden, W. Melnitchouk, and J.A. Tjon, PRC72, (2005), PRL91, (2003) M.P. Rekalo and E. Tomasi-Gustafsson, EPJA22, 331 (2004) Y.C. Chen et al.,PRL93, (2004) A.V. Afanasev and N.P. Merenkov, PRD70, (2004) ………. Intermediate state contributions model dependent calculations Charge asymmetry Charge asymmetry & TPE graph theoretical calculations S.Belostotski Seminar HEPD, May
25 VEPP-3 experiment E e =1.6 GeV (up to 2 GeV) electron current ~ 30mA, positron current limited to ~ 9mA HERMES type gas target atoms/cm 2, L10 31 cm -2 s Planned for S.Belostotski Seminar HEPD, May
26 JLAB Polarization Transfer Results Hall B, CLAS spectrometer, primary 5.7Gev e-beam 1A γ-beam e+e- beam 250 pA thick hydrogen targetL=1.3x10 33 cm -2 sec -1 Major challenge hard background conditions related to e+e- production target
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