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Jin Huang, MIT For the SoLID SIDIS collaboration.

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1 Jin Huang, MIT For the SoLID SIDIS collaboration

2 ANL, Peking U., CalState-LA, CIAE, W&M, Duke, FIU, Hampton, Huangshan U., Huazhong U.S.T., IMP CAS, Cagliari U. and INFN, INFN-Catania, 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, Shandong U, Tel aviv, Temple, Tsinghua U, UConn, Glasgow, UIUC, Kentucky, Maryland, UMass, New Hampshire, USTC, UVa and the Hall A Collaboration Strong theory support, Over 180 collaborators, 50 institutions, 8 countries, strong overlap with PVDIS Collaboration Hall A Collaboration Meeting Jin Huang 2 E12-10-006 (PAC35): Transversely pol. 3 He, Collins, Sivers, Pretzelosity E12-11-007 (PAC37): Longitudinally pol. 3 He, Worm-gear TMDs Rating and beam assignment in coming PAC38; new ideas/exp. coming See K. Allada Talk (Fri)

3  TMD PDFs link ◦ Intrinsic motion of partons ◦ Parton spin ◦ Spin of the nucleon  Multi-Dimension structure ◦ Probes orbital motion of quarks  A new phase of study, fast developing field ◦ Great advance in theories (factorization, models, Lattice...) ◦ Not sys. studied until recent years  Semi-Inclusive DIS (SIDIS): HERMES, COMPASS, Jlab-6GeV,...  p-p(p_bar) process : FNAL, BNL,... Hall A Collaboration Meeting Jin Huang 3 in DIS Nucleon -> Plate Transverse motion Preserved Transverse motion Preserved

4 4 f 1 = f 1T  = Sivers Helicity g 1 = h1 =h1 = Transversity h1 =h1 =Boer-Mulders h 1T  = Pretzelosity Hall A Collaboration Meeting Jin Huang g 1T = Worm Gear h 1L  = Worm Gear (Kotzinian-Mulders) Nucleon Spin Quark Spin

5  Gold mine for TMDs  Access all eight leading-twist TMDs through spin-comb. & azimuthal-modulations Hall A Collaboration Meeting Jin Huang 5 P xP q, Q 2 k k’ P h /z W’ W

6   High 10 36 N/cm 2 /s polarized luminosity  Achieved performance: ◦ High polarization > 60% achieved ◦ Supports both long. & trans. spin ◦ Frequent spin flip Hall A Collaboration Meeting Jin Huang 6 ~90% ~1.5% ~8% Effective pol. neutron target Achieved: stable pol. 60% with spin flip

7  GEM: high rate tracking  LC: In field calorimeter  Cerenkov: PID  MRPC: TOF, PID @ low p  C: Calorimeter Hall A Collaboration Meeting Jin Huang 7 6.6º 13º 22º 12º  Large acceptance: enable 4D-mapping  Full azimuthal angular coverage: small systematics  Share hardware with PVDIS (N. Liyanage Talk Friday)

8  Natural Extension of E06-010 See A. Puckett talk, last session  Much wider phase space ◦ Also data at low and high z value to access target frag. and exclusive channels.  Both transverse and longitudinal polarized target. Study 6/8 leading twist TMDs Hall A Collaboration Meeting 8Jin Huang

9  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 = Hall A Collaboration Meeting 9Jin Huang

10  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  = Hall A Collaboration Meeting 10Jin Huang

11  Dominated by real part of interference between L=0 (S) and L=1 (P) states  No GPD correspondence  Lattice QCD -> Moments of worm-gear TMDs  Model Calculations -> h 1L  =? -g 1T  Connections with Collinear PDFs through WW approx. and LIR. h 1L  = g 1T = Worm Gear Center of points: Hall A Collaboration Meeting 11Jin Huang Center of points:

12 Hall A Collaboration Meeting 12Jin Huang

13 Proton/deuteron/ 3 He unpolarized data in a large phase space coverage. Understand SIDIS process (Factorization, P T dependence) Complementary to Hall B & C R SIDIS, P T dependence studies. Understand the Nuclear effect in the light nuclei. Hall A Collaboration Meeting 13Jin Huang

14  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 also N. Liyanage Talk Friday Hall A Collaboration Meeting 14Jin Huang

15  Possible choices of magnets ◦ BABAR, CLEO, CDF, ZEUS, Hall D, New design ◦ Field and acceptance studied for the first four  GEMC based simulation framework ◦ Allow for quantitative decisions on magnet acceptance ◦ Rates/background studies ◦ see Z.W. Zhao’s talk (Friday) Hall A Collaboration Meeting Jin Huang 15 Plot by Z.W. Zhao Plot by Y. Zhang

16  Good progress with optics design ◦ Near perfect optics eff. achieved with Winston cone + 6x6’’ det.  Viable photo detectors ◦ Field-resistive PMTs or GEM-CsI detectors  Next stage is R&D and prototyping. Plots by S. Malace 13.6’’ Winston cone 6x6’’ detector 13.6’’ Winston cone 6x6’’ detector

17  GEM ◦ R&D Efforts from UVa/INFN/JLab are combined with the GEM R&D for the Super-BigBite & EIC ◦ See talk by N. Liyanage (Friday)  EM calorimeters ◦ Choices of Shashlik & SciFi (Pb or Fe) studied ◦ The Shashlik design is more favored  MRPC ◦ Onsite test in November  DAQ system ◦ Follows the Hall D path Hall A Collaboration Meeting Jin Huang 17

18  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 ◦ Steady progress ◦ In preparation for the Director Review. Hall A Collaboration Meeting 18Jin Huang

19  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  = Hall A Collaboration Meeting 19Jin Huang

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