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SIDIS with Polarized 3 He and SoLID at 11 GeV JLab Xin Qian Kellogg Radiation Lab Caltech.

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Presentation on theme: "SIDIS with Polarized 3 He and SoLID at 11 GeV JLab Xin Qian Kellogg Radiation Lab Caltech."— Presentation transcript:

1 SIDIS with Polarized 3 He and SoLID at 11 GeV JLab Xin Qian Kellogg Radiation Lab Caltech

2 SSA/DSA Measurement at 11/8.8 GeV Using a Polarized 3 He Target and SoLID in Hall A New since PAC35 Shangdong University, Huazhong Univ. of Science and Technology, Inst. of Modern Physics of CAS, ANL, INFN/Catania Peking U., CalState-LA, CIAE, W&M, Duke, FIU, Hampton, Huangshan U., Cagliari U. and INFN, INFN-Bari and U. of Bari, INFN-Frascati, INFN-Pavia, Torino U. and INFN, JLab, JSI (Slovenia), Lanzhou U, LBNL, Longwood U, LANL, MIT, Miss. State, New Mexico, ODU, Penn State at Berks, Rutgers, Seoul Nat. U., St. Mary’s, Syracuse, Tel aviv, Temple, Tsinghua U, UConn, Glasgow, UIUC, Kentucky, Maryland, UMass, New Hampshire, USTC, UVa and the Hall A Collaboration Strong theory support, Over 130 collaborators, 40 institutions, 8 countries, strong overlap with PVDIS Collaboration

3 Leading Twist Transverse Momentum Dependent Parton Distributions (TMDs) f 1T  = f 1 = g 1 = g 1T  = h 1L  = h1 =h1 = h 1T = h 1T  = Transversity Boer-Mulder Pretzelosity Sivers Helicity Nucleon Spin Quark Spin

4 High 10 36 N/cm 2 /s polarized luminosity Achieved Performance: – Transverse/Vertical and Longitudinal Polarized Target – >60% polarization – Fast Spin Flip Large acceptance enables 4-D mapping of asymmetries Full azimuthal-angle coverage -> smaller systematic uncertainties SoLID Setup for SIDIS on 3 He ~90% ~1.5% ~8% Effective pol. neutron target

5 Natural Extension of E06-010 Both transverse and longitudinal polarized target. Attack 6/8 leading twist TMDs Much wider phase space – Also data at low and high z value to access target frag. and exclusive channels. See K. Allada’s talk on E06-010 SSA results @ Transverse IV See J. Huang’s talk on E06-010 DSA results @ Transverse II

6 Current Status on Transversity Collins Asymmetries - Sizable for proton (HERMES and COMPASS) Large at high x, large for  - but with opposite sign Unfavored Collins fragmentation as large as favored (opposite sign) Also see Belle's data. - consistent with 0 for deuteron (COMPASS) - small for neutron (JLab Hall A) Sivers Asymmetries - non-zero for  + from proton (HERMES), consistent with COMPASS results at high Q 2 ? - consistent with zero for  - from proton and for   and  - from deuteron - negative values for neutron  +, small for  - (JLab Hall A) Very active theoretical and experimental study RHIC-spin, JLab (CLAS12, HallA/C 12 GeV), Belle, FAIR (PAX) Future EIC Global Fits/models by Anselmino et al., Yuan et al. and …

7 Transversity The third PDFs in addition to f 1 and g 1L 10% d quark tensor charge with world data Test Soffer’s inequality |h 1T | <= (f 1 +g 1L )/2 at large x h 1T =

8 Map Collins, Sivers and Pretzlosity asymmetries in a 4-D (x, z, Q 2, P T )

9 Sivers Function Correlation between nucleon spin with quark angular momentum Important test for factorization Different sign with twist-3 quark-gluon corr. dis. at high P T ? – Kang, Qiu, Vogelsang and Yuan: arxiv: 1103.1591 – Search for sign change, also P T weighted moments (Boer, Gamberg, Musch) f 1T  = Also in x

10 Pretzlosity: Direct measurement of relativistic effect of quark? PRD 78, 114024 (2008) Direct measurement of OAM? PRD 58, 096008 (1998) First non-zero pretzlosity asymmetries? h 1T  =

11 Worm-gear functions: Dominated by real part of interference between L=0 (S) and L=1 (P) states No GPD correspondence Lattice QCD -> Dipole Shift in mom. space. Model Calculations -> h 1L  =? -g 1T Connections with Collinear PDFs through WW approx. and LIR. h 1L  = g 1T = Worm Gear Center of points:

12 SIDIS Factorization Test at 11 GeV – With proton/deuteron/ 3 He unpolarized data in a large phase space coverage. Understand SIDIS process (Factorization, P T dependence) Complementary to Hall C R SIDIS, P T dependence studies. Complementary to Hall B SIDIS, P T dependence studies. Understand the Nuclear effect in the light nuclei.

13 SoLID Setup for SIDIS on 3 He Tracking: GEM Tracker. – Shared R&D with Super BigBite Electron Identification: – E&M calorimeter for large angle and high momentum – E&M calorimeter and light gas Cerenkov for forward angle Pion identification: – Heavy Gas Cerenkov and TOF (Multi-Resistive Plate Chamber) Fast pipeline DAQ (Similar to Hall D) Progressive Tracking, Mom. res. 1%, polar angular res. 0.3 mr, azimuthal angular res. 5 mr, 0.8 cm vertex res with realistic magnetic field simulation and 200 um GEM pos. res. Shoot for 100 ps TOF resolution, (60 ps intrinsic resolution from MRPC)

14 Responsibilities CO 2 gas Cerenkov detector: Temple U. Heavy Gas Cerenkov: Temple U. ECal: W&M, UMass, JLab, Rutgers, Syracuse GEM detectors:UVa, Miss State, W&M, Chinese Collaboration (CIAE, Huangshan U, PKU, LZU, Tsinghua, USTC), UKY, Korean Collaboration (Seoul National U) Scintillator: Chinese Cobllaboration, Duke MRPC: Tsinghua Univ., Duke Electronics: JLab DAQ: LANL, UVa and JLab Magnet: JLab and UMass Simulation: JLab and Duke Groups have experience with GEM already in China: IMP, Lanzhou U, Tsinghua U Groups interested in GEM: USTC/Huangshan, Lanzhou U, CIAE, Shangdong U, Tsinghua U, PKU, and IMP USTC: detectors, electronics and readout MRPC: Tsinghua University Blue: common with PVDIS Black: part in common with PVDIS Red: This experiment only See P. Souder’s talk on PVDIS (Electroweak Physics and Beyond Standard Model Parallel Session VI)

15 Bright Future for TMDs Golden channel of Electron-Ion Collider Sea quark TMDs Gluon Sivers? What happened at very low x? SIDIS vs. dipole model Test Collins-Soper Evolution for high vs. low Q 2 at large x. See H. Gao’s talk at Parrallel Session 8 of e+p physics at an EIC Also see M. Huang’s talk for simulation in the same session

16 Summary SIDIS is a powerful tool to study Parton dynamics in the amplitude level (TMDs) – Spin-OAM correlation, flavor dependence etc. SoLID is an ideal device to study SIDIS – High luminosity, large acceptance and full azimuthal coverage – Will provide ultimate precision (4-D) of SSA/DSA, at high-x (valence), low Q 2 region, which is crucial input to global analysis. – Test SIDIS factorization, P T dependence at JLab12 (complementary to SIDIS programs in Hall B/C) Integrated Effort in SoLID R&D with PVDIS! – In preparation for the Director Review.

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