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

2. Thomas Jefferson National Accelerator Facility R.. McKeown Page 2 Outline PAC and science program New Projects Update -Super Bigbite Spectrometer (SBS) -MOLLER -SoLID -others NSAC Subcommittee MEIC

3. Thomas Jefferson National Accelerator Facility R.. McKeown Page 3 PAC 39 Result (June 2012) Considered 13 new proposals, 6 previously conditionally approved, 3 Letters of Intent, 5 Proposals recommended for Approval 6 Proposals deferred 5 Conditionally approved (C1 – do not return to PAC) 3 Conditionally approved (C2 - must return to PAC)

4. Thomas Jefferson National Accelerator Facility R.. McKeown Page 4 12 GeV Approved Experiments by Physics Topics TopicHall A Hall BHall C Hall D Tota l The Hadron spectra as probes of QCD (GluEx and heavy baryon and meson spectroscopy) 112 The transverse structure of the hadrons (Elastic and transition Form Factors) 4329 The longitudinal structure of the hadrons (Unpolarized and polarized parton distribution functions) 2259 The 3D structure of the hadrons (Generalized Parton Distributions and Transverse Momentum Distributions) 510318 Hadrons and cold nuclear matter (Medium modification of the nucleons, quark hadronization, F N-N correlations, hypernuclear spectroscopy, few-body experiments) 32611 Low-energy tests of the Standard Model and Fundamental Symmetries 213 Total161816252

5. Thomas Jefferson National Accelerator Facility R.. McKeown Page 5 12 GeV Approved Experiments by PAC Days More than 7 years of approved experiments

6. Thomas Jefferson National Accelerator Facility R.. McKeown Page 6 Proposal for Backlog Management Re-evaluate Priorities Timing: ~2015 Charge: select high impact experiments for 3 years (beyond commissioning) Nominally consider about 300 pac-days per hall Start with A rated approved experiments (+ selected others?) Equip. availability input from Hall Leaders

7. Thomas Jefferson National Accelerator Facility R.. McKeown Page 7 Other PAC Issues New charge (no longer “top ½ of first 5 years”) Reconsider proposal process for Hall B (parallel running) – possible impact on other halls (e.g., SoLID, Hall D) New categories for resource availability: - Stage I: resources need to be identified/obtained - Stage II: resources are essentially available

8. Thomas Jefferson National Accelerator Facility R.. McKeown Page 8 Future Projects Super BigBite Spectrometer (Approved for FY13-15 construction) - high Q 2 form factors - SIDIS MOLLER experiment (MIE – FY14-18?) - Standard Model Test SoLID (SIDIS, PVDIS) Chinese collaboration CLEO Solenoid? Directors review: 2012-3

9. Thomas Jefferson National Accelerator Facility R.. McKeown Page 9 Other Projects/Upgrades Windowless target for proton charge radius experiment (NSF/MRI) Hall B (CLAS12): -Forward tagger (NSF/MRI + INFN) - planning for one-sector RICH for Hall B - Micromegas for CLAS12 (IRFU agreement) Backward-nucleon detector (Israel) and planning for  0 spectrometer in Hall C Planning for Cherenkov and FCAL upgrade in Hall D These are upgrades/enhancements to 12 GeV projects, still under development (various degrees).

10. Thomas Jefferson National Accelerator Facility R.. McKeown Page 10 Status: A’ Experiments APEX - completed test run (published) - awaiting radiation impact review, $$ HPS - completed parasitic test run, now C1 - review results, promote C1  Approval? - HEP funding… DarkLIGHT - completed test run at FEL - held briefing Oct. 22 for approval – more HW due - HEP/NP funding?

11. Thomas Jefferson National Accelerator Facility R.. McKeown Page 11 Charge to NSAC (4-5-2012)

12. Thomas Jefferson National Accelerator Facility R.. McKeown Page 12 NSAC subcommittee events Subcommittee met May 15 for planning Presentations to subcommittee Sept. 7-9 NSAC, Sept. 21 Fall DNP (10/24-27 - Newport Beach, CA) - Thurs. evening: mini-Town meetings - Fri. evening: DNP Town Meeting Subcommittee meeting ~mid-Nov.? Report due: December 2012

13. Thomas Jefferson National Accelerator Facility R.. McKeown Page 13 White Paper 1Executive Summary 2Meson Spectroscopy, Hybrid Mesons & Confinement 3The Internal Structure of Hadrons 4QCD and Nuclei 5The Standard Model and Beyond 6 Appendix A: Experimental Equipment

14. Thomas Jefferson National Accelerator Facility R.. McKeown Page 14 Jlab Presentations (Sept. 8) 8-8:45MEP OverviewR. Holt 8:45-9:05JLab Recent AccomplishmentsR. Ent 9:05-9:35JLab Future Science ProgramR. McKeown 9:35-9:55Meson Spectroscopy and GlueXJ. Dudek 9:55-10:15Nucleon ImagingM. Guidal 10:15-10:30Break 10:30-10:5012 GeV Project StatusC. Rode 10:50-11:10 Accelerator ScienceA. Hutton 11:10-11:30Budget ImpactsA. Lung 11:30-11:45Summary and outlookH. Montgomery

15. Thomas Jefferson National Accelerator Facility R.. McKeown Page 15 Electron Ion Collider 15 NSAC 2007 Long-Range Plan: “An Electron-Ion Collider (EIC) with polarized beams has been embraced by the U.S. nuclear science community as embodying the vision for reaching the next QCD frontier. EIC would provide unique capabilities for the study of QCD well beyond those available at existing facilities worldwide and complementary to those planned for the next generation of accelerators in Europe and Asia.” White Paper developed by JLab/BNL communities, posted for comment JLab MEIC design well-developed, design report posted Next NSAC Long Range Plan?

16. Thomas Jefferson National Accelerator Facility R.. McKeown Page 16

17. Thomas Jefferson National Accelerator Facility R.. McKeown Page 17 MEIC Design Report ArXiv: 1209.0757 Stable design for 3 years

18. Thomas Jefferson National Accelerator Facility R.. McKeown Page 18 Medium Energy EIC@JLab JLab Concept Initial configuration (MEIC): 3-11 GeV on 20-100 GeV ep/eA collider fully-polarized, longitudinal and transverse luminosity: up to few x 10 34 e-nucleons cm -2 s -1 Upgradable to higher energies (250 GeV protons) Pre-booster Ion source Transfer beam line Medium energy IP Electron collider ring (3 to 12 GeV) Injector 12 GeV CEBAF SRF linac Warm large booster (up to 20 GeV) Cold ion collider ring (up to 100 GeV)

19. Thomas Jefferson National Accelerator Facility R.. McKeown Page 19 solenoid electron FFQs 50 mrad 0 mrad ion dipole w/ detectors ions electrons IP ion FFQs 2+3 m 2 m Detect particles with angles below 0.5 o beyond ion FFQs and in arcs. Need 4 m machine element free region detectors Central detector Detect particles with angles down to 0.5 o before ion FFQs. Need 1-2 Tm dipole. EM Calorimeter Hadron Calorimeter Muon Detector EM Calorimeter Solenoid yoke + Muon Detector TOF HTCC RICH RICH or DIRC/LTCC Tracking 4-5m Solenoid yoke + Hadronic Calorimeter Very-forward detector Large dipole bend @ 20 meter from IP (to correct the 50 mr ion horizontal crossing angle) allows for very-small angle detection (<0.3 o ). Need 20 m machine element free region Full MEIC: Full Acceptance Detector 7 meters Three-stage detection

20. Thomas Jefferson National Accelerator Facility R.. McKeown Page 20 Summary PAC process evolving to match 12 GeV program Revisit priorities with PAC in ~2015 Queue of projects is making progress We provided much input to NSAC subcommittee MEIC design, science case, moving forward