Presentation is loading. Please wait.

Presentation is loading. Please wait.

High-energy hadron physics at J-PARC Wen-Chen Chang 章文箴 Institute of Physics, Academia Sinica, Taiwan KEK theory center workshop on Hadron physics with.

Published byMeghan Farmer Modified over 8 years ago

Similar presentations

Presentation on theme: "High-energy hadron physics at J-PARC Wen-Chen Chang 章文箴 Institute of Physics, Academia Sinica, Taiwan KEK theory center workshop on Hadron physics with."— Presentation transcript:

1 High-energy hadron physics at J-PARC Wen-Chen Chang 章文箴 Institute of Physics, Academia Sinica, Taiwan KEK theory center workshop on Hadron physics with high-momentum hadron beams at J-PARC January 15-18, 2013 Outline: Beam configuration Pion-induced Drell-Yan experiments What we have learned and wish to learn Pion structure Boer-Mulders function vs. QCD vacuum effect Experimental requirements Summary Outline: Beam configuration Pion-induced Drell-Yan experiments What we have learned and wish to learn Pion structure Boer-Mulders function vs. QCD vacuum effect Experimental requirements Summary

2 R. Muto, KEK 2

3 3

4 4

5 Beam Configuration Primary 30-GeV proton beam at 10 10 - 10 12 /s. Secondary beam: ◦ Pion: 10-20 GeV at 10 8 /s. ◦ Kaon: 10-15 GeV at 10 6 -10 7 /s. ◦ Anti-proton: 5-10 GeV at 10 6 /s. 5

6 Physics Programs Primary 30-GeV proton beam: ◦ E16: nuclear modification of vector mesons (S. Yokkaichi, Jan 17 th ). ◦ E21:  -e conversion ◦ Proton-induced Drell-Yan process: sea quark distributions of nucleon at large x and spin physics (Y. Goto, Jan 18 th ). Secondary beam: ◦ Pion-induced DY process:  Exclusive process to explore the pion.  Violation of Lam-Tung relation in Drell-Yan process.  Valence d/u of nucleons at large x.  Intrinsic charm of nucleons.  Flavor dependence of EMC effect. ◦ Charmed Baryon (K. Ozawa, Jan 16 th ) ◦ … 6

7 Pion-induced Drell-Yan Process Uniqueness: ◦ Valence anti-quark in the pion: pion beam is more effective in producing large-mass DY than proton beam. ◦ Sensitive to the valence quark of nucleon target. ◦ To explore pion partonic structure. Experiments: (angular distributions) ◦ FNAL CIP (1979) (252-GeV  ) ◦ CERN NA10 (1986) (140, 194, 286-GeV  ) ◦ FNAL E615 (1989) (252-GeV and 80-GeV  ; 252-GeV  +) 7

8 CIP (PRL 42, 944, (1979)) Atomic Mass Number Dependence  =1.12  =1.02 Consistent with quark-antiquark annihilation DY model. 8

9 Angular Distribution of Lepton Pair Collins-Soper Frame 9

10 CIP (PRL 42, 948, (1979)) Transversely Polarized Photon 10

11 CIP (PRL 43, 1219, (1979)) Longitudinally Polarized Photon at large x 1 11

12 E615 (PRD 39, 92 (1989)) Higher Twist Effect 12

13 Berger and Brodsky (PRL 42, 940, (1979)) Higher Twist Effect at large x 1 13

14 Brandenburg et al. (PRL 73, 939 (1994)) Pion Distribution Amplitude Pion distribution amplitude: distribution of LC momentum fractions in the lowest-particle number valence Fock state. 14

15 Brandenburg et al. (PRL 73, 939 (1994)) Pion Distribution Amplitude  :E615 15

16 A. Brandenburg et al. (Phys. Rev. D 76, 074032 (2007)) Pion Distribution Amplitude 16

17 A. P. Bakulev et al. (Phys. Rev. D 76, 074032 (2007)) Sensitivity to Pion DA 17  2 -(1- )

18 X-G Wu and T. Huang (Phys. Rev. D 82, 034024 (2010)) Pion Distribution Amplitude From Pion- Photon Transition Form Factor 18

19 Exclusive Pion-Induced Drell-Yan Process DA characterizes the minimal valence Fock state of hadrons. DA of pion are also explored by pion-photon transition form factor in Belle and Barbar Exps. TDA characterizes the next-to- minimal valence Fock state of hadrons. TDA of pion-nucleon is related to the pion cloud of nucleons. Bernard Pire, IWHS2011 19

20 Lam and Tung (PRD 18, 2447, (1978)) Lam-Tung Relation 20

21 NA10 (Z. Phys. C 37, 545 (1988)) Decay Angular Distributions ------- pQCD 21

22 NA10 (Z. Phys. C 37, 545 (1988)) First data with Deuterium Target 22

23 NA10 (Z. Phys. C 37, 545 (1988)) Violation of Lam-Tung Relation 140 GeV/c 194 GeV/c 286 GeV/c J.C. Peng Violation of LT relation suggests mechanisms of non-perturbative origins. 23

24 E615 (PRD 39, 92 (1989)) Violation of LT Relation 24

25 D. Boer 25

26 D. Boer 26

27 D. Boer 27

28 D. Boer Chromo-magnetic Sokolov-Ternov effect: spin-flip gluon synchrotron emission leading to a correlated polarization of q and qbar. 28

29 Brandenburg, et. al (Z. Phy. C60,697 (1993)) QCD Vacuum Effect On average no quark polarization, but a spin correlation between an annihilating quark and antiquark is caused by nontrivial QCD vacuum. 29

30 Boer (PRD 60, 014012 (1999)) Hadronic Effect, Boer-Mulders Functions 30

31 D. Boer 31

32 E866 (PRL 99 (2007) 082301; PRL 102 (2009) 182001) Consistency of LT relation for DY events in pd, pp 32

33 E866 (PRL 99 (2007) 082301) Azimuthal cos2 Φ Distribution of DY events in pd ν(π - W  µ + µ - X)~ [valence h 1 ┴ (π)] * [valence h 1 ┴ (p)] ν(pd  µ+µ-X) ~ [valence h 1 ┴ (p)] * [sea h 1 ┴ (p)] Sea-quark BM functions are much smaller than valence quarks 33

34 E866 (PRL 102 (2009) 182001) Azimuthal cos2 Φ Distribution of DY events in pp ν(pp  µ+µ-X)~ ν(pd  µ+µ-X) Presence of higher-order QCD effect at high p T 34

35 CDF (PRL 106, 241801 (2011)) Angular Distribution of p-pbar DY at Z pole A good agreement with the Lam-Tung relation A 0 -A 2 =0 35

36 Boer-Mulders functions from unpolarized pD and pp Drell-Yan Z. Lu and I. Schmidt, PRD 81, 034023 (2010) V. Barone et al., PRD 82, 114025 (2010) Sign of BM functions and their flavor dependence? 36

37 Z. Lu et al. (PLB 639 (2006) 494) Flavor separation of the Boer–Mulders function MIT Bag Model Spectator Model Large Nc limit Deuterium target 37

38 J.C. Peng 38

39 J.C. Peng 39

40 A. Accardi et al. Phys. Rev. D 84, 014008 (2011) 40

41 J. Arrington et al. (PRL 108, 252001 (2012)) Uncertainties in F 2 n /F 2 p Deuteron wave function at short distances (Fermi motion) Nucleon off-shell effect Nuclear correction 41

42 J. Arrington et al. (PRL 108, 252001 (2012)) Uncertainties in d/u 42

43 Helium/DME at 80/20 ratio beam 140 µm Experimental Setup II: BoNuS RTPC Fit RTPC points to determine helix of proton trajectory. Momentum determined from track curvature in solenoid field. dE/dx along track in RTPC also provides momentum information. Solenoid Magnet BoNuS RTPC Moller Catcher To BoNuS RTPC to CLAS p n M. Eric Christy 43

44 Neutron F 2 Structure Function via Spectator Tagging PRL 108, 142001 (2012) 44

45 Pion-Induced DY Without OR With Spectator Tagging 45

46 Experimental Requirements Beam: ◦ Hadron-type separation is preferred. ◦ High momentum: 15-20 GeV  beam. ◦ High flux: >10 8 /sec ◦ Similar interesting physics to be explored by other secondary beams like K and pbar. Target: ◦ Long liquid hydrogen and deuterium target. ◦ Nuclei target. Detector: ◦ Large-acceptance spectrometers: detecting the di-lepton pairs or the recoiled protons in the very forward and slightly backward directions. ◦ Good mass resolution: precise measurement of di-lepton mass to ensure an exclusive reaction via the missing-mass technique. ◦ Hadron absorber : if DY process is to be characterized by the muon pairs. 46

47 Summary Pion-induced DY program in the high- momentum beamline of J-PARC will offer important understanding on the aspects of ◦ QCD ◦ TMD PDF (Boer-Mulders Function) ◦ Pion structure ◦ Nucleon Similar programs could be carried out using the kaon and anti-proton beam. Spectrometer with a large acceptance and good mass resolution is required. 47

Download ppt "High-energy hadron physics at J-PARC Wen-Chen Chang 章文箴 Institute of Physics, Academia Sinica, Taiwan KEK theory center workshop on Hadron physics with."

Similar presentations

Measurement of polarized distribution functions at HERMES Alessandra Fantoni (on behalf of the HERMES Collaboration) The spin puzzle & the HERMES experiment.

Measurement of polarized distribution functions at HERMES Alessandra Fantoni (on behalf of the HERMES Collaboration) The spin puzzle & the HERMES experiment.
Drell-Yan Experiments for determining Nucleon Partonic Structures Wen-Chen Chang Institute of Physics, Academia Sinica, Taiwan The International Symposium.

Drell-Yan Experiments for determining Nucleon Partonic Structures Wen-Chen Chang Institute of Physics, Academia Sinica, Taiwan The International Symposium.
1 Partonic Substructure of Nucleons and Nuclei with Dimuon Production Partonic structures of the nucleons and nuclei with dimuon production –Overview and.

1 Partonic Substructure of Nucleons and Nuclei with Dimuon Production Partonic structures of the nucleons and nuclei with dimuon production –Overview and.
Quark-Hadron Duality Cynthia Keppel Hampton University / Jefferson Lab.

Quark-Hadron Duality Cynthia Keppel Hampton University / Jefferson Lab.
Delia Hasch TMDs & friends from lepton scattering -experimental overview- INT workshop on “3D parton structure of the nucleon encoded in GPDs & TMDs”,

Delia Hasch TMDs & friends from lepton scattering -experimental overview- INT workshop on “3D parton structure of the nucleon encoded in GPDs & TMDs”,
BONUS (Barely Off-Shell Nucleon Structure) Experiment Update Thia Keppel CTEQ Meeting November 2007.

BONUS (Barely Off-Shell Nucleon Structure) Experiment Update Thia Keppel CTEQ Meeting November 2007.
Working Group on e-p Physics A. Bruell, E. Sichtermann, W. Vogelsang, C. Weiss Antje Bruell, JLab EIC meeting, Hampton, May 23 2008 Goals of this parallel.

Working Group on e-p Physics A. Bruell, E. Sichtermann, W. Vogelsang, C. Weiss Antje Bruell, JLab EIC meeting, Hampton, May Goals of this parallel.
1 Updates on Transversity Experiments and Interpretations Jen-Chieh Peng Transversity Collaboration Meeting, JLab, March 4, 2005 University of Illinois.

1 Updates on Transversity Experiments and Interpretations Jen-Chieh Peng Transversity Collaboration Meeting, JLab, March 4, 2005 University of Illinois.
Drell-Yan Perspectives at FAIR Marco Destefanis Università degli Studi di Torino Drell-Yan Scattering and the Structure of Hadrons Trento (Italy) May 21-25,

Drell-Yan Perspectives at FAIR Marco Destefanis Università degli Studi di Torino Drell-Yan Scattering and the Structure of Hadrons Trento (Italy) May 21-25,
Exclusive limits of DY processes QNP-2012, Ecole Polytechnique, April 19, 2012 Oleg Teryaev JINR, Dubna.

Exclusive limits of DY processes QNP-2012, Ecole Polytechnique, April 19, 2012 Oleg Teryaev JINR, Dubna.
Future Opportunities at an Electron-Ion Collider Oleg Eyser Brookhaven National Laboratory.

Future Opportunities at an Electron-Ion Collider Oleg Eyser Brookhaven National Laboratory.
1 Transverse Spin Measurements at PHENIX John Koster for the PHENIX collaboration University of Illinois at Urbana-Champaign DIS2009 2009/04/27.

1 Transverse Spin Measurements at PHENIX John Koster for the PHENIX collaboration University of Illinois at Urbana-Champaign DIS /04/27.
1 Flavor Symmetry of Parton Distributions and Fragmentation Functions Jen-Chieh Peng Workshop on “Future Prospects in QCD at High Energy” BNL, July 17-22,

1 Flavor Symmetry of Parton Distributions and Fragmentation Functions Jen-Chieh Peng Workshop on “Future Prospects in QCD at High Energy” BNL, July 17-22,
Spin Azimuthal Asymmetries in Semi-Inclusive DIS at JLAB  Nucleon spin & transverse momentum of partons  Transverse-momentum dependent distributions.

Spin Azimuthal Asymmetries in Semi-Inclusive DIS at JLAB  Nucleon spin & transverse momentum of partons  Transverse-momentum dependent distributions.
Parton Model & Parton Dynamics Huan Z Huang Department of Physics and Astronomy University of California, Los Angeles Department of Engineering Physics.

Parton Model & Parton Dynamics Huan Z Huang Department of Physics and Astronomy University of California, Los Angeles Department of Engineering Physics.
Study of Exclusive Hard Processes with Hadron Beams at J-PARC Mini Workshop on “Structure and Productions of Charmed Baryons II” August 7-9, 2014, J-PARC,

Study of Exclusive Hard Processes with Hadron Beams at J-PARC Mini Workshop on “Structure and Productions of Charmed Baryons II” August 7-9, 2014, J-PARC,
1 Probing the Nucleon Structure with Azimuthal Asymmetries --cos2φ distribution & Boer-Mulders F. Lingyan Zhu University of Illinois at Urbana-Champaign.

1 Probing the Nucleon Structure with Azimuthal Asymmetries --cos2φ distribution & Boer-Mulders F. Lingyan Zhu University of Illinois at Urbana-Champaign.
Kinematics of  + n   p   0  p reaction Susumu Oda 2007/04/10-19.

Kinematics of  + n   p   0  p reaction Susumu Oda 2007/04/10-19.
Jim Stewart DESY Measurement of Quark Polarizations in Transversely and Longitudinally Polarized Nucleons at HERMES for the Hermes collaboration Introduction.

Jim Stewart DESY Measurement of Quark Polarizations in Transversely and Longitudinally Polarized Nucleons at HERMES for the Hermes collaboration Introduction.
F.-H. Heinsius (Universität Freiburg/CERN) Introduction Gluon polarization in the nucleon Transverse spin distribution Newest Results from the Experiment.

F.-H. Heinsius (Universität Freiburg/CERN) Introduction Gluon polarization in the nucleon Transverse spin distribution Newest Results from the Experiment.

Similar presentations

Ads by Google