Deeply Virtual Compton Scattering from the Proton and the Neutron ( E00-110 & E03-106: DVCS/nDVCS ) Hall A Collaboration MeetingDecember 6, 2005 Spokespersons:

Slides:

Advertisements

Similar presentations

P-Y BERTIN Jefferson Laboratory and Université BLAISE PASCAL- IN2P3/CNRS for the DVCS HALL A collaboration 0 exclusive electro production Q 2 =2.3 GeV.

Advertisements

E status report Alexandre Camsonne Hall A Jefferson Laboratory Hall A collaboration meeting December 13 th 2007.

Outlook for Generalized Parton Distributions and Deeply Virtual Compton Scattering in Hall A Charles E. Hyde-Wright Old Dominion University, Norfolk VA.

Deeply Virtual Compton Scattering on the neutron in. Dr. Malek MAZOUZ Ph.D. Defense, Grenoble 8 December 2006 GPDs Physics case n-DVCS experimental setup.

A future n-DVCS experiment in Hall A Malek MAZOUZ October 15 th 2007 What was done in E Motivations Experimental upgrades Projected Results DVCS.

Deeply Virtual Compton Scattering on the neutron Slides by Malek MAZOUZ June 21 st 2007 Physics case n-DVCS experimental setup Analysis method Results.

P-DVCS and n-DVCS experiment status -Brief overview of the theory -Experiment setup -Analysis status Malek MAZOUZ LPSC Grenoble Hall A Collaboration MeetingJune.

Measuring the Neutron and 3 He Spin Structure at Low Q 2 Vincent Sulkosky College of William and Mary, Williamsburg VA Experimental Overview The.

Measuring the Neutron and 3 He Spin Structure at Low Q 2 Vincent Sulkosky for the JLab Hall A Collaboration College of William and Mary, Williamsburg VA.

December Extraction of exclusive neutral pions electro-production cross sections in Hall Jefferson Laboratory. Eric FUCHEY Ph.D

The Spin Structure of 3 He and the Neutron at Low Q 2 : A Measurement of the Extended GDH Integral Vincent Sulkosky (for the JLab Hall A Collaboration)

Deeply Virtual Compton JLab Franck Sabatié CEA Saclay On behalf of the Hall A and Hall B collaborations Pacific Spin 07 - Vancouver August.

Polarized positive + and negative - polarized positive + and negative - muon to perform DVCS measurements for GPD study for GPD study Nicole dHose,

Introduction Glasgow’s NPE research Group uses high precision electromagnetic probes to study the subatomic structure of matter. Alongside this we are.

Deeply Virtual Compton Scattering on the neutron with CLAS12 at 11 GeV k k’ q’ GPDs nn’ Silvia Niccolai CLAS12 Workshop, Paris, March 8th 2011.

NDVCS measurement with BoNuS RTPC M. Osipenko December 2, 2009, CLAS12 Central Detector Collaboration meeting.

Jin Huang PhD Candidate, MIT For MENU 2010 May 31, Williamsburg.

DVCS at JLab Como, 11/06/2013. JLab published 6 GeV results JLab 6GeV analysis in progress JLab 12 GeV program.

Experimental requirements for GPD measurements at JLab energies. Detector that ensures exclusivity of process, measurement of complete final state Measure.

Roberto Francisco Pérez Benito On behalf the HERMES Collaboration European Graduate School Lecture Week on Hadron Physics Jyväskylä, Aug 25-29, 2008 HERMES.

Why Studying n-DVCS ? Eric Voutier n-DVCS gives access to the least known and constrained GPD, E 0 because F 1 (t) is small 0 because of cancelation of.

Study of two pion channel from photoproduction on the deuteron Lewis Graham Proposal Phys 745 Class May 6, 2009.

2-3D imaging of the nucleon: Generalized Parton Distributions Franck Sabatié Nov. 25th 2008 CEA Saclay - SPhN Why Generalized Parton Distributions ? Properties,

THE DEEP INELASTIC SCATTERING ON THE POLARIZED NUCLEONS AT EIC E.S.Timoshin, S.I.Timoshin.

J. Roche Ohio University and Jefferson Laboratory Results shown are from the ”DVCS HALL A collaboration” (E and E03-106) First steps toward nucleon.

Generalized Parton Distribution JLab Franck Sabatié CEA Saclay On behalf of the Hall A and Hall B collaborations APS-DNP mini workshop Newport.

Crossed Channel Compton Scattering Michael Düren and George Serbanut, II. Phys. Institut, - some remarks on cross sections and background processes  

Silvia Niccolai, IPN Orsay, for the CLAS Collaboration QNP2012, Palaiseau, April 19 th 2012 Deeply virtual Compton scattering on longitudinally polarized.

Deeply Virtual Exclusive Reactions with CLAS Valery Kubarovsky Jefferson Lab ICHEP July 22, 2010, Paris, France.

Possibilities to perform DVCS measurement at COMPASS E. Burtin CEA-Saclay Irfu/SPhN On Behalf of the COMPASS Collaboration DIS Madrid - 29 April,

Possibility for Double DVCS measurement in Hall A Alexandre Camsonne SBS Meeting June 4 th 2013.

DVCS with Positron Beams at the JLab 12 GeV Upgrade

Deeply Virtual Compton Scattering on the neutron Malek MAZOUZ LPSC Grenoble EINN 2005September 23 rd 2005.

Deeply Virtual Compton Scattering in JLAB Hall A

The Quark Structure of the Nucleon Inti Lehmann & Ralf Kaiser University of Glasgow Cosener’s House Meeting 23/05/2007 Nucleon Structure Generalised Parton.

Measurements with Polarized Hadrons T.-A. Shibata Tokyo Institute of Technology Aug 15, 2003 Lepton-Photon 2003.

Calorimetry for Deeply Virtual Compton Scattering in Hall A Alexandre Camsonne Hall A Jefferson Laboratory Workshop on General Purpose High Resolution.

GPDs studies at COMPASS DVCS studies for a GPD experiment in 2010 Physics impact Experimental issues Recoil detector prototype Exclusive  0 production.

Harut Avakian (Jlab) DVCS results with unpolarized and polarized target Introduction Event selection MC simulations and radiative corrections DVCS with.

Probing Generalized Parton Distributions

L/T separation in the 3 He(e,e’p) reaction at parallel kinematics Freija Descamps Supervisors: Ron Gilman Eric Voutier Co-supervisor: Jean Mougey.

Deeply Virtual Compton JLab Franck Sabatié Saclay SPIN’06 - Kyoto October 6 th 2006 From GPDs to DVCS, to GPDs back Onto the DVCS harmonic.

Michel Garçon – SPhN/Saclay – SIR2005 Workshop (Jefferson Lab, May 2005) Generalized Parton Distributions: the present program at Jefferson Lab Generalized.

I R F U Nucleon structure studies with the COMPASS experiment at CERN Stephane Platchkov Institut de Recherche sur les lois Fondamentales de l’Univers.

Ibrahim H. Albayrak, Hampton University Group Meeting Experiment Rosen07: Measurement of R =  L /  T on Deuterium in the Nucleon Resonance Region. 

JLab, October 31, 2008 WACS in 12 GeV era 1 GPDs Wide-Angle Compton Scattering pi-0 photo-production in 12 GeV era B. Wojtsekhowski Outline WACS and other.

Time-like Compton Scattering with CLAS12 S. Stepanyan (JLAB) CLAS12 European Workshop February 25-28, 2009, Genova, Italy.

JLab PAC33, January 16, 2008 Polarization transfer in WACS 1  p   p Polarization transfer in Wide-Angle Compton Scattering Proposal D. Hamilton,

Deeply virtual  0 electroproduction measured with CLAS.

? DIS 2013Marseille, April 22-26, 2013 (i) Physics Motivations (ii) Deeply Virtual Compton Scattering (iii) Experimental Setup (iv) 4 He(e,e’  4 He) Analysis.

Measurements of Generalized Parton Distributions with COMPASS at CERN (CERN-SPSC , SPSC-EoI-005) Letter of Intent, in framework of the theme /2008.

Envisioned PbWO4 detector Wide-Angle Compton Scattering at JLab-12 GeV with a neutral-particle detector With much input from B. Wojtsekhowski and P. Kroll.

Vahe Mamyan, Hall-C collaboration meeting, January Data Analysis of F2 and R in Deuterium and Nuclei  Physics  Experiment Setup  HMS Detectors.

Feasibility studies for DVCS and first results on exclusive  at COMPASS DVCS studies Physics impact Experimental issues Recoil detector prototype Exclusive.

Single Target Spin Asymmetries and GPDs Jian-ping Chen, Jefferson Lab, Virginia, USA SSA Workshop, BNL, June 1-3, 2005 Nucleon structure and GPDs DVCS.

Understanding the 3 He Nuclei: Asymmetry Measurements in Quasi- Elastic Ge Jin University of Virginia For the E Collaboration.

Timelike Compton Scattering at JLab

JLab12 & EIC QCD workshop, 15/12/06.

Studying GPDs at Jefferson Lab

Deep Virtual Compton Scattering at Jlab Hall A

Deeply Virtual Compton Scattering at HERMES

Co-Spokespersons: Zafar Ahmed, University of Regina

Wide Angle Compton Scattering

Measurement of GPDs at JLab and in Future at Colliders

Deeply Virtual Compton Scattering at 11GeV with CLAS12

4th Workshop on Exclusive Reactions at High Momentum Transfer

Wei Luo Lanzhou University 2011 Hall C User Meeting January 14, 2011

First results on Deep Virtual Compton Scattering in Hall A

Deeply Virtual Scattering

GEp-2γ experiment (E04-019) UPDATE

Presentation transcript:

Deeply Virtual Compton Scattering from the Proton and the Neutron ( E & E03-106: DVCS/nDVCS ) Hall A Collaboration MeetingDecember 6, 2005 Spokespersons: Pierre-Yves Bertin, Charles Hyde-Wright, Ron Ransome, Franck Sabatie, and Eric Voutier Elena Kuchina Rutgers, The State University of New Jersey

Hall A DVCS at 6 GeV: Methods and Goals E00-110: Measure the absolute cross section of DVCS on proton E (3 Q² values: 1.4, 1.9, 2.3 GeV²) and on neutron E (Q²=1.9 GeV²) E03-106: Simplest access to the least known of GPDs: E First constraint of nucleon orbital angular momentum through model of E Check Handbag dominance & Test factorization of DVCS Deduce Q² dependence and relative importance of leading twist and higher twists in helicity dependent cross-section Measure linear combination of GPDs …including Re (DVCS) Unique characteristics: High luminosity (up to 4·10 37 cm -2 s -1 ) Well defined kinematics (high resolution detection of e - and γ) Method: Measure weighted cross-section differences as function of φ angle Deduce Q 2 dependence & relative importance of twist-2 and higher twists Goal:

DVCS experimental setup

contains BH propagators and some kinematics B contains twist-3 terms A is a linear combination of three GPDs evaluated at x=ξ Cross-section difference assuming handbag dominance

s (GeV²) Q² (GeV²) P e (Gev/c) Θ e (deg) -Θ γ* (deg) E p-DVCS E n-DVCS x Bj =0.364 Kinematics is fully defined Beam polarization was about 75.3% during the experiment (fb -1 ) GeV polarized 110 cm LH2 (LD2) e' (LHRS) p'(n') Experiment kinematic settings

Analysis Method MC includes radiative corrections (both external and internal).

Calorimeter acceptance Acceptance in φ is very dependent on t for large -t

Preliminary results on p-DVCS Difference if Yields N + -N - : 3 bins in Q 2 x 5 bins in t (x 50 bins in φ) 0.5< M x ² < 1.2 GeV 2 relatively small contribution of the twist-3 term Q 2 dependence of the twist-2 and twist-3 terms: Twist-2 term (high precision) ~ 12% variation Twist-3 term (20-30% uncertainty) is ~ 0 handbag dominance test Twist-2 absolute value & t-dependence is well reproduced by VGG model.

φ LD 2 target – LH 2 target Possible neutron signal ! 0.5 GeV 2 < missing mass 2 < 1.5 GeV 2 Absolute cross sections necessary to extract helicity dependence of neutron n-DVCS – Very preliminary 1.5 GeV 2 < missing mass 2 < 2.5 GeV GeV 2 < missing mass 2 < 3.5 GeV 2 NO signal

To do Acceptance checks Virtual radiative corrections Contribution from πº Total cross-section: access to real part of DVCS and other cross-section coefficients Polarized cross sections to extract GPD E Relative asymmetry considering Proton Array and Tagger

Summary and Conclusions Very exciting times where first high precision data is coming out. Test of handbag dominance t-dependence and access to linear combinations of GPDs DVCS is a golden probe. New exclusive experiments in different kinematic domains and with different observables (BSA, BCA,TSA…) are needed in order to fully map out GPDs.