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Fermilab Steering Group develop roadmap for accelerator-based HEP program at Fermilab Fermilab Steering Group develop roadmap for accelerator-based HEP.

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Presentation on theme: "Fermilab Steering Group develop roadmap for accelerator-based HEP program at Fermilab Fermilab Steering Group develop roadmap for accelerator-based HEP."— Presentation transcript:

1 Fermilab Steering Group develop roadmap for accelerator-based HEP program at Fermilab Fermilab Steering Group develop roadmap for accelerator-based HEP program at Fermilab Young-Kee Kim Fermilab / University of Chicago SLAC Users Organization Annual Meeting June 7, 2007

2 Energy Frontier Physics at FNAL: Tevatron Large Hadron Collider International Linear Collider R&D

3 Tevatron: close to 2 publications / week M W ~0.05% M top ~1% B s –B s Oscillation Discovery + Precision Meas. M Higgs < 144 GeV at 95% CL - Distance Scale - 10 -19 m mb -  b - nb - pb - fb - 100 120 140 160 180 200 - - - Higgs Mass [GeV/c 2 ]  Total Inelastic bb WZWZ tt - - Higgs WH,ZH jets (qq, qg, gg) observed WZ, Single Top, ZZ Low Mass SUSY Road to the Higgs! with 0.5 – 1 fb -1

4 Integrated Luminosity (pb -1 ) FY07 FY06 FY05 FY04 FY03 FY02 Shutdown Energy Frontier Physics at FNAL: Tevatron Large Hadron Collider International Linear Collider R&D Shutdown

5 Remote Operations Center Tier-1 Computing Center LHC Physics Center LHC Accelerator: a leading US institution CMS: CMS Host Institution  Support US community Energy Frontier Physics at FNAL: Tevatron Large Hadron Collider (CERN) International Linear Collider R&D

6 Energy Frontier Physics at FNAL: Tevatron Large Hadron Collider International Linear Collider R&D Consensus of HEP Community: ILC is next accelerator. Highest Priority at FNAL Detector R&D: Vertex Detector Muon, Calorimeter Accelerator R&D: Main Linac Civil/Site Development together with ILC institutions Detector Test Facility (upgraded Fall 2006) for General Use Accelerator Test Facility (existing building)

7 Neutrino Physics at FNAL: MiniBooNE, SciBooNE with 8 GeV Booster protons MINOS, MINERvA, NOvA with 120 GeV Main Injector protons Neutrino Physics at FNAL: MiniBooNE, SciBooNE with 8 GeV Booster protons MINOS, MINERvA, NOvA with 120 GeV Main Injector protons

8 MINOS Neutrino Physics at FNAL: MiniBooNE, SciBooNE with 8 GeV Booster protons MINOS, MINERvA, NOvA with 120 GeV Main Injector protons Neutrino Physics at FNAL: MiniBooNE, SciBooNE with 8 GeV Booster protons MINOS, MINERvA, NOvA with 120 GeV Main Injector protons Neutrino Oscillation: MiniBooNE, MINOS, NOvA Neutrino Cross Sections: SciBooNE, MINERvA Important, yet not very well understood MiniBooNE   e appearance-only model LSND K2K SK 2006 2007

9 Accelerator Physics Center Launched on June 1, 2007. Led by Vladimir Shiltsev R&D aimed at future generations of accelerators Educate and train next generation of accelerator scientists and engineers So far, Fermilab has been supporting ~10 Ph.D. students at a given time Enhance this effort more Ph.D. students, undergraduate programs Engage university community in accelerator research

10 Center for Particle Astrophysics Theory Computational cosmology Sloan Digital Sky Survey Pierre Auger Observatory Cold Dark Matter Search CDMS Cold Dark Matter Search COUPP Dark Energy Survey Supernova Acceleration Project (SNAP) R&D Particle Astrophysics at FNAL Particle Astrophysics at FNAL World class limits of direct dark matter detection SDSS, in combination with WMAP, achieves most precise measurement of cosmological parameters

11 1. Are there undiscovered principles of nature: New symmetries, new physical laws? 2. Are there extra dimensions of space? 3. Do all the forces become one? 4. Why are there so many kinds of particles? 5. What happened to the antimatter? 6. What is dark matter? How can we make it in the laboratory? 7. How can we solve the mystery of dark energy? 8. How did the universe come to be? 9. What are neutrinos telling us? From “Quantum Universe” and “Discovering Quantum Universe” Fermilab’s Scientific Program addresses:

12 Fermilab 2006-7 extraordinary years for Particle Physics at FNAL! Much more expected in the near future. Planning Farther Ahead: Fermilab will be solely devoted to Particle Physics.

13 EPP 2010 Recommendations 1.LHC 2.ILC Global ILC Hosting 3.Particle Astrophysics 4.Global Neutrino Program 5.Quark Flavour Physics

14 P5 Recommendations LHC and ILC are highest priorities. FY08 - run Tevatron and PEP II and start: –Dark Energy Survey (DES) –Cold Dark Matter Search Super CDMS-25kg –NOvA long baseline neutrino program –Daya Bay reactor neutrino experiment Longer term - prepare SNAP and LSST

15 P5 Recommendations (Fermilab) LHC and ILC are highest priorities. FY08 - run Tevatron and PEP II and start: –Dark Energy Survey (DES) –Cold Dark Matter Search Super CDMS-25kg –NOvA long baseline neutrino program –Daya Bay reactor neutrino experiment Longer term - prepare SNAP and LSST ILC assumption - early start

16 ILC Decision LHC discoveries US colliders shutdown Regions agree ILC 2010 Site selected ILC 2010

17 Uncertainty in ILC Decision Time FY03FY04FY05FY06FY07FY09FY10FY11FY12FY13FY14FY15FY08FY02FY16 Particle Astrophysics B Factory (PEP-II) CESR ILC Decision LHC LHC Construction Tevatron Neutrino Physics ILC Engineering Design Report, R&D, System Test, Industrialization Construction Sustain rigorous ILC activities over a possibly longer period. Alternative discovery opportunities that might be needed. Prepare colliders beyond the ILC / LHC.

18 Fermilab Director Pier Oddone formed Steering Group to develop roadmap for Fermilab’s accelerator-based HEP program. March 22, 2007 Deadline for final report August 1, 2007

19 Steering Group: Charge The Steering Group will build the roadmap based on the recommendations of the EPP2010 National Academy report and the recommendations of the P5 subpanel of HEPAP. The Steering Group should consider the Fermilab based facilities in the context of the global particle physics program. Specifically the group should develop a strategic roadmap that: 1.supports the international R&D and engineering design for as early a start of the ILC as possible and supports the development of Fermilab as a potential host site for the ILC; 2.develops options for an accelerator-based high energy physics program in the event the start of the ILC construction is slower than the technically-limited schedule; and 3.includes the steps necessary to explore higher energy colliders that might follow the ILC or be needed should the results from LHC point toward a higher energy than that planned for the ILC.

20 Steering Group Membership Eugene BeierU. Penn Joel ButlerFermilab Sally DawsonBNL Helen EdwardsFermilab Thomas HimelSLAC Steve HolmesFermilab Young-Kee Kim (chair)Fermilab / U.Chicago Andrew LankfordUC Irvine David McGinnisFermilab Sergei NagaitsevFermilab Tor RaubenheimerSLAC Vladimir ShiltsevFermilab Maury TignerCornell Hendrick WeertsANL

21 Steering Group Membership Eugene BeierU. Penn Joel ButlerFermilab Sally DawsonBNL Helen EdwardsFermilab Thomas HimelSLAC Steve HolmesFermilab Young-Kee Kim (chair)Fermilab / U.Chicago Andrew LankfordUC Irvine David McGinnisFermilab Sergei NagaitsevFermilab Tor RaubenheimerSLAC Vladimir ShiltsevFermilab Maury TignerCornell Hendrick WeertsANL

22 Physics Groups Eugine BeierU Penn Deborah HarrisFermilab Ed KearnsBoston Univ. Boris KayserFermilab Sacha KoppUT Austin Andrew LankfordUC Irvine Bill LouisLos Alamos (Young-Kee Kim)UChicago/FNAL Joel ButlerFermilab Brendan CaseyBrown Sally DawsonBNL Chris HillFermilab Dan KaplanIIT Yury KolomenskyUCBerkeley/LBNL William MolzonUC Irvine Kevin PittsUIUC Frank PorterCalTech Bob TschirhartFermilab Harry WeertsANL (Young-Kee Kim)UChicago/FNAL Neutrino Physics Flavor Physics NuSAG (up to ~1 MW, oscillation) + multi MW proton sources, cross section measurements, … Quarks, Charged Leptons, Physics with anti-protons, etc.

23 Steering Group Activities Weekly Telephone Meeting (Kick-off meeting on April 2 nd ) Fact findings –EPP2010 and P5 assumptions –ILC R&D needs, needs as a host country / host laboratory –LHC Upgrades –Physics and Facility Opportunities: near, med, long term Physics; , , K, p-bar, B, … reconfiguring existing accelerator complex, and new facilities Formed 5 subgroups – analysis done through subgroups Reach out to community for input For all activities, we include –ILC GDE leaders, HEP / ILC program managers in DOE and NSF –Chairs of Fermilab/SLAC Users Executive committees –HEPAP Chair / Deputy Chair, P5 Chair Steering Group Webpage: publicly accessible by anyone –http://www.fnal.gov/directorate/Longrange/Steering_Public/http://www.fnal.gov/directorate/Longrange/Steering_Public/ –Agendas, presentations, minutes, documents, etc.

24 Subgroups Oversight (additional constituents) –To make sure that roadmaps being developed are consistent with EPP2010 and P5 recommendations (Mel Shochet, Jon Bagger, Abe Seidan, Sally Dawson) Neutrino Physics (additional constituents) –Develop roadmap for neutrino physics based on NuSAG studies Flavor Physics: quarks, charged leptons,... (additional constituents) –Develop 10-year plan with reconfiguring existing accelerator complex Accelerator Facilities (based on technical and resources feasibilities) –Develop options of a roadmap that supports ILC R&D for early start, supports Fermilab as a potential host site, and provides an accelerator-based high energy physics program in case of delayed start High Energy Colliders beyond the ILC –Develop steps necessary to explore higher energy colliders that might follow ILC or be needed should results from LHC point toward a higher energy than that planned for ILC.

25 Face-to-Face Meeting at Fermilab (June 12) Tentative Agenda TimeTopics 8:30 – 12:00 Energy Frontier ILC: What is needed for early decision and construction? LHC accelerator upgrades R&D steps for colliders beyond ILC and LHC 1:00 – 2:30 Intensity Frontier - Protons Reconfiguration of the existing accelerator complex Toward higher intensity proton sources 2:30 – 3:30 Luminosity Frontier - Electrons Super B factory, Giga-Z 4:00 – 600Sketching Possible Roadmaps 6:00 – 6:30Discussion for Final Report Writing 7:00 – 9:00Dinner Discussion

26 Example of Possible Fermilab Roadmap ILC EDR + R&D ILC System Test 1-2 RF Units Energy Frontier: Beyond ILC/LHC Reach: R&D for higher energy lepton and hadron colliders LHC LHC Upgrade beams from Booster, Main Injector protons MiniBooNE, SciBooNE, MINOS, MINERvA, NOvA Tevatron Running Tevatron Physics Intensity Frontier: High Intensity Protons ILC Construction ILC Decision Reconfiguring Accelerator Complex, , K, p beams - ILC Crymodule Industrialization Running 2 GeV + 6 GeV Linac + Recycler + Main Injector Running ILC Cryomodules (Cavities, Couplers, …) ILC RF Distribution ….

27 ILC Style 8 GeV H - Linac: 9mA x 1 msec x 5 Hz 8 GeV slow spill 1 second x 2.25E14 protons/1.4 sec 200 kW Stripping Foil Recycler 3 linac pulse/fill Main Injector 1.4 sec cycle 120 GeV fast extraction spill 1.7E14 protons/1.4 sec 2.3 MW Single turn transfer @ 8 GeV ILC Style 6 GeV Linac  High Intensity Proton Sources

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