Thomas Jefferson National Accelerator Facility Page 1 Physics LRP December 8, 2011 Glenn R. Young Experimental Nuclear Physics Division Town Meeting Jefferson.

Slides:

Advertisements

Similar presentations

PacSpin 2007, Vancouver, Canada

Advertisements

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

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

Future Sino-US Collaboration in QCD Phyics Ten-Year Anniversary of STAR-China Collaboration Haiyan Gao 高海燕 Duke University 1.

Brahim MorenoStudents' seminar at Bosen Workshop ΔVCS and Generalized Parton Distributions

Elton S. Smith University of Virginia October 25, Overview Bremsstrahlung Tagging Spectrometer and Photon Beam Review Elton S. Smith Jefferson Lab.

Department of Physics and Astronomy

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.

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.

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

SoLID SIDIS Update Zhiwen Zhao University of Virginia For SoLID Collaboration Hall A Collaboration Meeting 2013/12/17.

R. D. McKeown Jefferson Lab College of William and Mary The Jlab 12 GeV Upgrade 1 R. McKeown - IUPAP - July 2, 2010.

Jefferson Lab Status Hall A collaboration Dec. 16, 2013 R. D. McKeown Deputy Director For Science.

1 Auteuil, Paris March 2011 Jefferson Lab The 12 GeV Era Hugh Montgomery.

Experiment HUGS 2011 – Jefferson Laboratory Hussein Al Ghoul Department Of Physics Florida State University ᵠ.

Future Opportunities at an Electron-Ion Collider Oleg Eyser Brookhaven National Laboratory.

Thomas Jefferson National Accelerator Facility R.. McKeown Page 1 View from Lab Management R. McKeown DNP12 Satellite Meeting October 25, 2012.

AM Software Review. Hall C after 12 GeV Upgrade Beam Energy: 2 – 11 GeV/c Super High Momentum Spectrometer (SHMS) –Horizontal Bender, 3 Quads, Dipole.

Thomas Jefferson National Accelerator Facility Page 1 SPIN2006, October 7, 2006, 1 Future Spin Physics at JLab 12 GeV and Beyond Kees de Jager Jefferson.

Thomas Jefferson National Accelerator Facility Page 1 IPR October 18-20, 2011 John J. LeRose Independent Project Review of 12 GeV Upgrade Jefferson Lab.

 Nucleon spin structure and Imaging in the Valence quark region ➥ Inclusive measurements at large x; quark models tests and Lattice QCD tests ➥ Exclusive.

12 GeV Science Program R. D. McKeown JSA Science Council January 7, 2011 Thanks to A. Lung, L. Cardman, others.

Spin Azimuthal Asymmetries in Semi-Inclusive DIS at JLAB  Nucleon spin & transverse momentum of partons  Transverse-momentum dependent distributions.

UK Hadron Physics D. G. Ireland 10 October 2014 NuPECC Meeting, Edinburgh.

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

Prospects for GPD and TMD studies at the JLab Upgrade Volker D. Burkert* ) Jefferson Lab QCDN’06 Workshop, June 12-16, 2006, Rome  Introduction  JLab.

Parton Model & Parton Dynamics Huan Z Huang Department of Physics and Astronomy University of California, Los Angeles Department of Engineering Physics.

POETIC 2012 Indiana University R. D. McKeown 12 GeV CEBAF.

Hadronic Multi-particle Final State Measurements with CLAS at Jefferson Lab Laird Kramer Florida International University Neutrino Scattering, March 2003.

Jefferson Lab Nuclear Science Program QCD Evolution May 26, 2015 R. D. McKeown.

Hadron physics Hadron physics Challenges and Achievements Mikhail Bashkanov University of Edinburgh UK Nuclear Physics Summer School I.

Contractor Assurance System Peer Review April Page 1 NSTAR 2011 May 16, 2011 Jefferson Lab Hugh Montgomery.

Thomas Jefferson National Accelerator Facility R. D. McKeown Slide 1 R. D. McKeown Jefferson Lab College of William and Mary The 12 GeV Science Program.

Jefferson Lab Update R. D. McKeown Jefferson Lab HPS Meeting June 16, 2014.

The Path to Running CLAS12 BONuS12 Latifa Elouadrhiri August 21, 2015.

Thomas Jefferson National Accelerator Facility Status of the CLAS112 Project Page 1 Jefferson Lab 12 GeV Upgrade Status of the CLAS12 Project Latifa Elouadrhiri.

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.

Sub-Nucleon Physics Programme Current Status & Outlook for Hadron Physics D G Ireland.

General Discussion some general remarks some questions.

Single-Spin Asymmetries at CLAS  Transverse momentum of quarks and spin-azimuthal asymmetries  Target single-spin asymmetries  Beam single-spin asymmetries.

Latifa Elouadrhiri Jefferson Lab Hall B 12 GeV Upgrade Drift Chamber Review Jefferson Lab March 6- 8, 2007 CLAS12 Drift Chambers Simulation and Event Reconstruction.

Dihadron production at JLab Sergio Anefalos Pereira (INFN - Frascati)

1 Physics Requirements on Reconstruction and Simulation Software Jorge G. Morfín - Fermilab.

Jump to first page Quark-Hadron Duality Science Driving the 12 GeV Upgrade Cynthia Keppel for Jefferson Lab PAC 23.

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

Transverse Momentum Dependence of Semi-Inclusive Pion and Kaon Production E : Spokespersons Peter Bosted, Rolf Ent, Hamlet Mkrtchyan 25.5 days.

Jefferson Lab Overview Bob McKeown April 20, 2015.

The 12 GeV Physics Program at Jefferson Lab R. D. McKeown Jefferson Lab College of William and Mary PTSP 2013 – Charlottesville, VA September 9, 2013.

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Anthony.

The 12 GeV equipment Hall D – Hall D – GLUEx detector for photoproduction experiments Hall B – Large acceptance detector CLAS12 for high luminosity measurements.

Elton S. Smith PaNic02, Sep 30 – Oct 4, Physics Prospects with the JLab 12 GeV Upgrade Elton S. Smith Jefferson Lab PANIC02 Osaka Gluonic Excitations.

1 Melynda Brooks, “Understanding the Origin of the Nucleon Spin” Understanding the Origin of the Nucleon Spin Andi Klein, P-23, Melynda Brooks P-25, Pat.

JEFFERSON LAB CLOSE-OUT 6 GeV  Finish analysis on CLAS eg1-DVCS (SSAs + DSAs in   production with longitudinally polarized H and D targets) and.

Prospects for GPD and TMD studies at the JLab Upgrade Volker D. Burkert Jefferson Lab QCDN’06 Workshop, June 12-16, 2006, Rome  Introduction  JLab Upgrade.

Transverse Spin Physics with an Electron Ion Collider Oleg Eyser 4 th International Workshop on Transverse Polarisation Phenomena in Hard Processes Chia,

Stephen Wood DVCS meeting November 12, OUTLINE Brief Hall C Overview 6 GeV 12 GeV Examples of pi0 and photon detection in Hall C Potential pi0 and.

Hall A Update Thia Keppel User Group Board of Directors January 2015.

Timelike Compton Scattering at JLab

PAC38 Charge 1.) Review new proposals, previously conditionally approved proposals, and letters of intent† for experiments that will utilize the 12 GeV.

Plans for nucleon structure studies at PANDA

Samples of Hall B Results with Strong Italian Impact

Beam Spin Asymmetry Measurements from Deeply Virtual Meson Production

The 12 GeV Jlab Upgrade Project

Nadia Fomin University of Virginia

The 12 GeV Upgrade of the CEBAF Accelerator at Jefferson Lab

View from Lab Management HPS Collaboration Meeting

Schedule Rolf Ent HPS Meeting, May 22, 2018.

SOLID Collaboration Meeting

Presentation transcript:

Thomas Jefferson National Accelerator Facility Page 1 Physics LRP December 8, 2011 Glenn R. Young Experimental Nuclear Physics Division Town Meeting Jefferson Lab December 8, GeV Upgrade “<5 years” Scientific Program

Thomas Jefferson National Accelerator Facility Page 2 Physics LRP December 8, 2011 Highlights of the 12 GeV Program Spin and Flavor Dependence of Valence Parton Distribution Functions Distribution of Charge and Current in the Nucleon New View of Hadron (and Nuclear) Structure: Generalized Parton Distributions  Determination of the quark angular momentum

Thomas Jefferson National Accelerator Facility Page 3 Physics LRP December 8, 2011 Highlights of the 12 GeV Program Exploration of QCD in the Nonperturbative Regime:  Existence and properties of exotic mesons Nuclear Structure in Terms of QCD  Spin and flavor dependent EMC Effect  Study quark propagation through nuclear matter Precision Tests of the Standard Model

Thomas Jefferson National Accelerator Facility Page 4 Physics LRP December 8, 2011 Hall D – exploring origin of confinement by studying exotic mesons Hall B – understanding nucleon structure via generalized parton distributions Hall C – precision determination of valence quark properties in nucleons and nuclei Hall A – short range correlations, form factors, hyper-nuclear physics, future new experiments (e.g., PV and MOLLER) 12 GeV Scientific Capabilities

Thomas Jefferson National Accelerator Facility Page 5 Physics LRP December 8, 2011 Detector Performance Requirements Hall DHall BHall CHall A excellent hermeticity luminosity energy reachinstallation space polarized photonshermeticityprecision E  ~8.5-9 GeV11 GeV beamline 10 8 photons/starget flexibility good momentum/angle resolutionexcellent momentum resolution high multiplicity reconstructionluminosity up to particle ID

Thomas Jefferson National Accelerator Facility Page 6 Physics LRP December 8, GeV Upgrade Schedule Hall A: fabrication delayed to FY12 start; first Hall to receive beam 10/2013 Hall D: new; early access to allow for solenoid work; re- planned installation to accommodate solenoid test and maintain detector installation; beam 4/2014 Hall C: requires SOS removal; limited by funding rate; last to receive beam 10/2014, w/Hall B Hall B: requires CLAS removal; limited by funding rate; last to receive beam 10/2014, w/ Hall C

Thomas Jefferson National Accelerator Facility Page 7 Physics LRP December 8, GeV Science Program The physical origins of quark confinement (GlueX, meson & baryon spectroscopy) The spin and flavor structure of the proton and neutron (PDF’s, GPD’s, TMD’s…) The quark structure of nuclei Probe potential new physics through high precision tests of the Standard Model Program Advisory Committees (PAC) 30, 32, 34, 35, 36, 37, 38 –2006 through 2011 –48 experiments approved; 7 conditionally approved –PAC39 scheduled June 2012 Exciting slate of experiments for 4 Halls planned for initial five years of operation!

Thomas Jefferson National Accelerator Facility Page 8 Physics LRP December 8, GeV Approved Experiments by Physics Topics E has not been counted with the experiments since it is considered a test

Thomas Jefferson National Accelerator Facility Page 9 Physics LRP December 8, GeV Approved Experiments by PAC Days Hall B has substantial parallel running Hall A PV experiments have long running times

Thomas Jefferson National Accelerator Facility Page 10 Physics LRP December 8, 2011 Glueballs and hybrid mesons 5/10/201010Seminar - Argonne National Laborator y Defines Beam Energy : 12 GeV

Thomas Jefferson National Accelerator Facility Page 11 Physics LRP December 8, 2011 Hall D “GlueX” Experiment Lead Glass Solenoid Target Cerenkov Counter (future) Time of Flight Barrel Calorimeter Upstream Veto 12 GeV Electron Beam Photons Bremsstrahlung Tagger Diamond Crystal Tracking Scope matches 12 GeV Upgrade technical performance requirements

Thomas Jefferson National Accelerator Facility Page 12 Physics LRP December 8, 2011 Deeply Virtual Exclusive Processes - Kinematics Coverage of the 12 GeV Upgrade JLab Upgrade Upgraded JLab has complementary & unique capabilities unique to JLab overlap with other experiments High x B only reachable with high luminosity H1, ZEUS

Thomas Jefferson National Accelerator Facility Page 13 Physics LRP December 8, 2011 Quark Structure of Nuclei (Nucleons and Pions) or (Quarks and Gluons)? Not a simple convolution of free nucleon structure with Fermi motion In nuclear deep-inelastic scattering, look directly at the quark structure of nuclei Counts/hour/ (100 MeV) 2 (100 MeV 2 ) for L=10 35 cm -2 sec GeV Upgrade Provides Substantially Enhanced Access to the DIS Regime with enough luminosity to reach the high-Q 2, high-x region!

Thomas Jefferson National Accelerator Facility Page 14 Physics LRP December 8, 2011 Hall C “SHMS” SHMS HMS Shield House for Detectors Detector Package Inside Shield House Three Superconducting Quadrupole Magnets SC Dipole Magnet Scope matches 12 GeV Upgrade technical performance requirements Horizontal Bender

Thomas Jefferson National Accelerator Facility Page 15 Physics LRP December 8, 2011 SHMS Detectors in Shield House Dipole NG Cerenkov Wire Chambers HG Cerenkov S1X S1Y S2X S2Y Aerogel Calorimeter 116 cm

Thomas Jefferson National Accelerator Facility Page 16 Physics LRP December 8, 2011 PRESENT HALL A - SCHEMATIC VIEW

E : DVCS at 11 GeV in Hall A JLab12 with 3, 4, 5 pass beam (6.6, 8.8, 11.0 GeV) 88 days 250 k events/setting 6 GeV  Absolute cross-section measurements  Test of scaling  Increased kinematical coverage Well described by leading twist contribution Significant deviation from Bethe-Heitler Results from E00-110: Upgraded PbF 2 calorimeter built and tested

Thomas Jefferson National Accelerator Facility Page 18 Physics LRP December 8, 2011 CLAS12 Detectors Silicon Vertex Tracker Central Time of Flight Solenoid High Threshold Cerenkov 3 Regions of Drift Chambers Torus 3 Panels of Time of Flight – 1a & 2 reused from CLAS Low Threshold Cerenkov – Reused from CLAS Electromagnetic Calorimeter – Reused from CLAS Pre-Shower Calorimeter

Thomas Jefferson National Accelerator Facility Page 19 Physics LRP December 8, 2011 CLAS12 Experiments – Optimal Running ProposalPhysicsContactRatingDaysGroupall equipment available day 1 EnergyGroupTarget E Neutron magnetic form factorG. GilfoyleA Neutron detector RICH IC11A liquid D 2 target PR (a)Dihadron DIS productionAvakian E aStudy of partonic distributions in SIDIS kaon productionK. HafidiA-56 E Boer-Mulders asymmetry in K SIDIS w/ H and D targetsM. ContalbrigoA-TBA DVCS on neutron targetS. NiccolaiA90 E Hard exclusive electro-production of π 0, ηP. StolerB RICH IC Forward tagger 11, 8.8, 6.6 B liquid H 2 E Probing the proton’s quark dynamics in Semi-Inclusive pion production H. AvakianA60 E Deeply Virtual Compton ScatteringF. SabatieA80 E Excitation of nucleon resonances at high Q 2 R. GotheB+40 E11-005Hadron spectroscopy with forward taggerM. BattaglieriA-119 PR DVMP of ρ, ω, φM. Guidal E Color transparency in exclusive vector meson electroproduction off nuclei K. HafidiB+60 11CNucllear targets E Quark propagation and hadron formationW. BrooksA-60 11DNuclear E Free Neutron structure at large xS. BueltmanA40 Radial TPC11EGas D 2 E Longitudinal Spin Structure of the NucleonS. KuhnA Polarized target RICH IC 11F NH 3 ND 3 E (b)DVCS on longitudinally polarized proton targetF. SabatieA120 E Spin-Orbit Correl. with Longitudinally polarized targetH. Avakian103 PR (b)Dihadron studies on long. polarized targetH. Avakian E (b)Study of partonic distributions using SIDIS K productionK. HafidiA-110 E Spin-Orbit correlations in K production w/ pol. targetsH. AvakianA-103 PR SIDIS on transverse polarized targetM. ContalbrigoTransverse target11GHD TOTAL run time

Thomas Jefferson National Accelerator Facility Page 20 Physics LRP December 8, 2011 Search for Gluonic Excitations The GlueX Detector Design has been driven by the need to carry out Amplitude analysis.  p X  n,p Photoproduction  1 → a + 1    → (     )(   ) →         h 0 → b o 1    → (   )  →      Final state particles  ± K ±  p n K L h’ 2 → K + 1 K − →  o K + K − →  +  − K + K −  1  1  ’ 1 b 2 h 2 h’ 2 b 0 h 0 h’ 0 all charged many photons strange particles 1 −+ 2+−2+− 0+−0+−

Thomas Jefferson National Accelerator Facility Page 21 Physics LRP December 8, 2011 Items Also Needed - In-Hand or TBA Existing –spectrometers – HMS, both HRS –Targets (H, D, 3 He, HD, …) (polarized) –Detectors – Big Bite, polarimeters, calorimeters Devices underway (in various stages) –Neutron detector, forward vertex, forward tagger –Aerogel Cerenkov, TOF slats, neutron polarimeter Devices foreseen –RICH for K/pi (Halls B & D) –Super BigBite –SOLID, Møller, other large experiments (! This is by no means exhaustive)

Thomas Jefferson National Accelerator Facility Page 22 Physics LRP December 8, 2011 Backup Slides

Thomas Jefferson National Accelerator Facility Page 23 Physics LRP December 8, 2011 Detectors Construction Cost Summary Experimental Equipment/Physics Cost Experimental Systems Experimental Systems by Sub-system

Thomas Jefferson National Accelerator Facility Page 24 Physics LRP December 8, 2011 Comparison of Major Costs: Halls D, B, and C Hall D Hall B Hall C existing magnet Most detectors funded through NSF/MRI grant and foreign contribution 2008 NSF/MRI grant approved for ~1/2 of PCal costs Part on WFO funds

Thomas Jefferson National Accelerator Facility Page 25 Physics LRP December 8, 2011 WBS 1.4 & 1.5 Construction Cost Summary IPR Oct 2011 (August 31, 2011 Data) WBSHalls EAC FY11$K Direct BAC Burdened & Escalated $K Hall A Hall B31,58133, Hall C22,93824, Hall D *38,59441, & 1.5Total93,621100, , WFO Hall D Detectors and Infrastructure5,2015,291 * Includes $8M Spare Solenoid