Polarized Positrons at the Jefferson Laboratory Idaho State University, Idaho Accelerator Center, Jefferson Lab, LPC Clermont-Ferrand, LPSC Grenoble, Old.

Slides:

Advertisements

Similar presentations

Journées Instrumentation du GDR Nucléon 8-9 Avril 2008, CEA Saclay Polarized Positrons at the Jefferson Laboratory (i) Physics motivations (ii) Principe.

Advertisements

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Dept. Of Energy 1 Spin Dance.

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Dept. Of Energy 1 Spin Dance.

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.

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

5 MeV Mott Measurement for CEBAF Operations group Joe Grames, Marcy Stutzman February 14 th, 2007 Sir Nevill F. Mott at the ceremony with his Nobel Prize.

Compton polarimetry for EIC Jefferson Lab Compton Polarimeters.

K. LaihemE166 collaboration LCWS06 Bangalore March 12th 2006 The E166 experiment Development of a polarized positron source for the ILC. Karim Laihem on.

Undulator-Based Positron Production in the Final Focus Test Beam (E-166) K.T. McDonald, J.C. Sheppard, Co-Spokespersons SLAC Experimental Program Advisory.

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.

Dr. Paul Gueye Hampton University G4NAMU - SLAC Overview Of Geant4 Medical Activities At Hampton UniversityJefferson Lab Hampton University - Hampton,

PN12 Workshop JLab, Nov 2004 R. Michaels Jefferson Lab Parity Violating Neutron Densities Z of Weak Interaction : Clean Probe Couples Mainly to Neutrons.

CEBAF Polarized Electron Source: Outlook & Horizon Operations Group Meeting May 13 th & 20 th, 2009 Joe Grames M. Poelker, P. Adderley, J. Clark, J. Grames,

AESOP: Accurate Electron Spin Optical Polarimeter Marcy L. Stutzman, Matt Poelker; Jefferson Lab Timothy J. Gay; University of Nebraska.

Polarized Electrons for Polarized Positrons A Proof-of-Principle Experiment P. Adderley 1, A. Adeyemi 4, P. Aguilera 1, M. Ali, H. Areti 1, M. Baylac 2,

PosiPol June 23-26, 2009, Lyon Polarized Electrons for Polarized Positrons JLabe + (i) Physics motivations (ii) JLab (iii) Technical challenges.

The PEPPo e - & e + polarization measurements E. Fanchini On behalf of the PEPPo collaboration POSIPOL 2012 Zeuthen 4-6 September E. Fanchini -Posipol.

Beijing, Feb 3 rd, 2007 LEPOL 1 Low Energy Positron Polarimetry for the ILC Sabine Riemann (DESY) On behalf of the LEPOL Collaboration.

Positron Beam for Measurements of Generalized Parton Distributions Generalized Parton Distributions e JLab (i) Generalized parton distributions (ii)

/SC-PAC Operated by the Southeastern Universities Research Association for the U.S. Depart. Of Energy Joe Grames CEBAF Operations

Positron Experiments at Jlab and ALLS Paul Guèye Hampton University April 7, 20111Paul Gueye - Hampton University.

Polarimetry at the LC Source Which type of polarimetry, at which energies for LC ? Sabine Riemann (DESY), LEPOL Group International Workshop on Linear.

Operated by the Southeastern Universities Research Association for the U.S. Depart. Of Energy Thomas Jefferson National Accelerator Facility Strained Superlattice.

Compton polarimetry for EIC Jefferson Lab Compton Polarimeters.

EUROTeV WP4 Report Polarised Positron Source Jim Clarke, on behalf of the WP4 team DESY Zeuthen STFC (Daresbury and RAL) University of Durham University.

1 THE 2 INFINITIES Barbara Erazmus CLAS12-European Workshop February

DVCS with Positron Beams at the JLab 12 GeV Upgrade

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Dept. Of Energy 1 An Overview.

Undulator-Based Positron Production in the Final Focus Test Beam (E-166) The International Polarized Positron Production Collaboration K.T. McDonald, J.C.

Summary of Workshop on Precision Electron Beam Polarimetry Newport News June 9-10, 2003 workshop summary by Dave Gaskell, Jefferson Lab Richard Jones,

Polarimetry Report Sabine Riemann on behalf of the DESY/HUB group January 24, 2008 EUROTeV Annual Meeting, Frascati.

ILC/CLIC e + generation working group Jim Clarke, STFC Daresbury Laboratory and Louis Rinolfi, CERN.

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

Polarized Positrons at the Jefferson Laboratory Idaho State University, Idaho Accelerator Center, Jefferson Lab, LPC Clermont-Ferrand, LPSC Grenoble, Old.

(i) Physics motivations (ii) The PEPPo experiment (iii) PEPPo measurements (iv) Outlook Eric Voutier Institut de Physique Nucléaire d’Orsay Orsay, France.

Compton polarimetry for EIC. Outline Polarized electron beam Compton process Compton polarimeters at Jefferson Laboratory – Parity experiments at Jlab.

Early Career Internal Review Upgrade and development for calorimetry for Deeply Virtual Compton Scattering Alexandre Camsonne VI. Nuclear Physics (NP)

Early Career Internal Review Upgrade and development for calorimetry for Deeply Virtual Compton Scattering Alexandre Camsonne November 18 th 2011 VI. Nuclear.

Polarized Electron Footprint at JLab P. Adderley, J. Clark, J. Dumas ǂ, A. Freyberger, J. Hansknecht, J. Grames, M. Poelker, K. Surles-Law, M. Stutzman,

22 th October 2010 IWLC Sources working group J. Clarke, T. Omori, L. Rinolfi, A. Variola Summary of Sources working group WG1 with contributions from.

Workshop on Precision Electron Beam Polarimetry for the Electron Ion Collider, University of Michigan, Aug 23-24, 2007 An EIC-like Polarized Electron Injector:

4 th Electron-Ion Collider Workshop, Hampton University, Monday May 19 th, 2008 CEBAF Load-Lock Polarized Electron Photogun Joe Grames & Matt Poelker (Jefferson.

PAC38, Newport News, August 22-26, 2011 PEPPo a Proof-of-Principle Experiment Polarized Electrons for Polarized Positrons A. Adeyemi 4, P. Aguilera 1,

김 귀년 CHEP, KNU Accelerator Activities in Korea for ILC.

Page 1 Polarized Electron Sources for Linear Colliders October, 2010 A. Brachmann, J. C. Sheppard, F. Zhou SLAC SLAC October 18-22, 2010.

? Users Town MeetingNewport News, March 16, 2012 Polarized Positrons for Nuclear Physics at Jefferson Lab (i) Electromagnetic form factors (ii) Generalized.

Operated by Jefferson Science Associates, LLC for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Polarized Electron Beams.

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Depart. Of Energy The Department.

Thomas Jefferson National Accelerator Facility Precision Electron Beam Polarimetry Workshop - June , Jefferson Laboratory Accelerator Tools.

GDE FRANCE Why High brillance gun is good for the ERL scheme? And SC GUN? Alessandro Variola For the L.A.L. Orsay group.

Dollan, Laihem, Lohse, Schälicke, Stahl 1 Monte Carlo based studies of polarized positrons source for the International Linear Collider (ILC)

DVCS Radiative Corrections C. Hyde Old Dominion University, Norfolk, VA (and update to come) Hall A DVCS Collaboration.

PRE-CONCEPTUAL DESIGN OF A CW POSITRON SOURCE FOR JLAB (2013-LDRD-02) JOE GRAMES LDRD PROPOSAL REVIEW - JULY 17, 2013 PROJECT OVERVIEW THE TEAM LDRD EVALUATION.

Prospects for Positron Beams at JLab e JLab (i) Physics motivations (ii) Polarized positron production (iii) PEPPo (iv) Perspectives (v) Conclusions.

Timelike Compton Scattering at JLab

PEPPo a Proof-of-Principle Experiment

Polarization of final electrons/positrons during multiple Compton

LDRD Brainstorming Session

Polarized Electrons for Polarized Positrons

Polarized Electrons for Polarized Positrons

A.P. Potylitsyn, I.S. Tropin Tomsk Polytechnic University,

Production of Highly Polarized Positrons MeV Polarized Electrons

Calibration of the PEPPo Polarimetry (a tale of two polarimeters)

ILC/CLIC e+ generation working group

G0 Backward Angle Accelerator Preparations

CEBAF Injector Overview

5 MeV Mott Measurement for CEBAF Operations group

Polarized Positrons at Jefferson Lab

PEPPo : Polarized Positron Production

Presentation transcript:

Polarized Positrons at the Jefferson Laboratory Idaho State University, Idaho Accelerator Center, Jefferson Lab, LPC Clermont-Ferrand, LPSC Grenoble, Old Dominion University o A group of physicists is developping the possible concepts and technics for a high intensity positron source at JLab. o In this effort, the LPSC team is studying the production of polarized positrons from polarized electrons. J. Dumas is a Grenoble PhD student co-funded by JLab & IN2P3. Jonathan Dumas (JLab/LPSC), Joe Grames (JLab), Arne Freyberger (JLab), Serkan Golge (ODU), Charles Hyde (LPC), Eric Voutier (LPSC)

Physics Motivations DVCS Beam Charge Dependent Cross Section DVCS Beam Spin Dependent Cross Section  The beam charge asymmetry (BCA) in deeply virtual Compton scattering (DVCS) isolates the real part of the DVCS amplitude. It is however very unlikely that e + and e - will be delivered and measured simultaneously in the experimental halls. A polarized positron beam having the quality features of the CEBAF polarized electron beam will provide, via the beam spin asymmetry, a unique way to master systematics and insure a better determination of the Re,Im[DVCS*BH] terms from separate e + and e - data. Eric Voutier

Principe of Operation Unique Challenges for CW Positron Beams Proposed JLab Scheme  The e - source would consist of a 5-10 MeV high intensity longitudinally polarized e - beam.  The polarized e - ’s create circularly polarized  ’s by Bremsstrhalung radiation in a W target.  Within the same target, the polarized  ’s create longitudinally polarized e + ’s. Photon circular polarization Positron longitudinal polarization Simulations for a 5 MeV longitudinally polarized (100 %) e - beam on 250 µm tungsten foil Simulations for a 5 MeV circularly polarized (100 %)  beam on 250 µm tungsten foil Eric Voutier

GEANT4 Simulations Positron longitudinal polarization  At 5 MeV/c, 85% of polarization and a 250 µm tungsten foil, the integrated production rate in the forward direction is ~7 x e + /e -, in absence of a magnetic collection system. The longitudinal polarization of positrons can be as high as 70%, depending on the positron energy, and is ~ 40% on the average. Eric Voutier

QE ~ 1% & P ~ 780nm Technical Challenges 100 nm chekc 14 pairs Load-lock gun Strained Superlattice GaAs Fiber-based laser system The determinant elements for the achievement of a high intensity high polarization e - beam are: a performant electron gun, a very good photocathode, and a powerful laser. Improved electron gun with ultra-high vaccuum J. Grames et al., AIP CP 915 (2007) 1037 Pw ~ 780 nm &  t ~ Hz Eric Voutier A beam current of 1 mA was demonstrated for 10 h. Beam polarization not measured.

Test Experiment  A test experiment is being designed in order to validate this concept.  The angular, energy and polarization distributions of positrons will be measured. A possible detection system would constitute of a selecting dipole magnet followed by a Compton transmission polarimeter.  2009 : design completion and construction.  2010 : data taking. Eric Voutier

JPos09 International Workshop on Positrons at Jefferson Lab Jefferson Lab, March 25-27, 2009 Contact: Organizing Committee: L. Ceraul (JLab) L. Ceraul (JLab) L. Elouadrhiri (JLab) L. Elouadrhiri (JLab) T. Forest (Idaho State University) T. Forest (Idaho State University) J. Grames (JLab) J. Grames (JLab) W. Melnitchouk (JLab) W. Melnitchouk (JLab) E. Voutier (LPSC Grenoble) E. Voutier (LPSC Grenoble) Internationnal Advisory Committee: X. Artru (IPN Lyon) X. Artru (IPN Lyon) L. Cardman (JLab) L. Cardman (JLab) P. Cole (Idaho State University) P. Cole (Idaho State University) A. Freyberger (JLab) A. Freyberger (JLab) P. Guichon (CEA Saclay) P. Guichon (CEA Saclay) R. Holt (Argonne National Laboratory) R. Holt (Argonne National Laboratory) A. Hunt (Idaho Accelerator Center) A. Hunt (Idaho Accelerator Center) C. Hyde (LPC Clermont Ferrand) C. Hyde (LPC Clermont Ferrand) M. Klein (University of Liverpool) M. Klein (University of Liverpool) K. Kumar (University of Massachusetts) K. Kumar (University of Massachusetts) M. Poelker (JLab) M. Poelker (JLab) J. Sheppard (SLAC) J. Sheppard (SLAC) A. Variola (LAL Orsay) A. Variola (LAL Orsay) Selected Topics: Technology of positron sources Technology of positron sources Polarized positrons Polarized positrons Electron/photon drivers Electron/photon drivers Positron & electron polarimetry Positron & electron polarimetry Generalized parton distributions Generalized parton distributions Electromagnetic form factors Electromagnetic form factors Positron annihilation spectroscopy Positron annihilation spectroscopy