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ELI ALPS – needs , expectations and constraints Ervin Racz

ELI ALPS – needs , expectations and constraints Ervin Racz. HEPTech Workshop , Prague 7th April , 2014. Outline. Mission Strategy Design of ELI ALPS Schematics of ELI ALPS Implementation Personnel. Mission, general aims. Missions of ELI-ALPS.

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ELI ALPS – needs , expectations and constraints Ervin Racz

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  1. ELI ALPS – needs, expectations and constraints Ervin Racz HEPTechWorkshop, Prague 7th April, 2014

  2. Outline • Mission • Strategy • Design of ELI ALPS • Schematics of ELI ALPS • Implementation • Personnel

  3. Mission, general aims

  4. Missions of ELI-ALPS • Togenerate X-UV and X-ray fs and attopulses, fortemporal investigation at the attosecond scale of electron dynamics in atoms, molecules, plasmas and solids. • ATTOSECOND Beamlines & UserFacility • 2) Tocontributetothetechnologicaldevelopmenttowards 200PW • HIGH INTENSITY beamline

  5. ELI-ALPS Lightsources The shortestpulsedurationsatthewidestspectralrange … … atthehighestrepetitionrate.

  6. Strategy

  7. General Stategy of Implementation Supportedby EU RegionalFunds (85%) Cumbersome and complicatedburocraticprocessesandorganizations Legalform – company (ELI-Hu Nonprofit Ltd.) - Rare (atleastin Hungary) - Advantages: flexible, clearrules, non-governmental establishment, efficientorganisation - Disadvantages: logics of scientific and financialaredifferent, no tenuretrack (inclassicsense), … National environment (in Hungary): - 3 electionsin 2014 (temporaryeffect, withshortdecaytime) - Economy is justto start growingslowly - The project is in focus– flagship EU and innovation project (Far thelargestsciencerelatedexpenditure in Hungary since 50s’.)

  8. ScientificStategy of Implementation Specs and basicdesignscoordinatedbyELI-Hu Nonprofit Ltd. Minimize”on site” developmentsduringPhase 1 Make R&D contractstoplace of expertise(Research Institutes, Universities, and Industries) Makeindustrialcontracts Custom made systemsatthecuttingedge Solve HR problems(Spreadgraduates and postdocsto R&D places toparticipateinkeydevelopments & products.)

  9. Designs of ELI ALPS • Conceptual Design Report • Technical Design Report • Collaborations

  10. Design of ELI-ALPS I Mission Basic scientificdirections ELI-PP Docavailablefromthewebsite ELI-PP White Book ELI-ALPS July 2010 – December 2010 FeasibilitystudyfortheScientificCase of ELI-ALPS March 2011 – June2011 PlannedresearchActivities of ELI-ALPS Feasibilitystudy of ELI-ALPS – part of project applicationtothe EU.Completed: June, 2012

  11. Design of ELI-ALPS II. Conceptual Design Report Part I (sources, science and IT) Conceptual Design Report by the international community Part II (labs, workshops) is due Q2 2014 • By Research Institutes and Universities Status: primary and secondarysourcescompleted, measurementscompleted SAC approved Undercompletion: preparation, diagnosticslabs, workshop, facilityissues

  12. Design of ELI-ALPS III Technical Design Report Technical design (TDR)bythecontractors Part I is dueby Q4 2014 • Bymainlyindustrialpartners

  13. Collaborationwithindustryand Academia Major areas Lasers, optics, mechatronics, X-ray, THz sources, particles, diagnostics, vacuum technology, sci IT, control-command, safety) Clusters • In Hungary: platform for laser technology (later on is cluster form) • cluster for ELI-related training(supported by national sources by 3M€, between 2013-15) • In Europe: direct & indirect contacts Intellectual Property (IP) issues • No direct IP acquisitionpossibility. • Support targeted R&D - create IP. • Legal issues: balance between the needs of ELI-ALPS, interest of the industry, and the EU / national laws on public money.

  14. Schematics of ELI ALPS • General Scientific Scheme • Lasers • Secondary Sources

  15. Schematics of ELI-ALPS

  16. Schematics of thelasers

  17. Schematics of ELI-ALPS

  18. Secondarysources Gas High Harmonics Generation and Attosecond Pulses 1kHz-100kHz, 4-400eV, upto 10 µJ Solid High Harmonics Generation and Attosecond Pulses 5Hz – 1kHz, 10eV – 5keV, uptomJ THz sources3MV/cm – 100MV/cm, upto1mJ New Concepts for HHG and Attosecond Pulse Generation Electron and Ion Acceleration (to support regional sciences only)e-: 1-2GeV, 0.2nC; p+: upto 160MeV, upto1nC

  19. Implementation • Overview • Implementation of lasers(R&Ds) • Implementation of secondarysources(R&D and publicprocurements) • Scientificareas (layout) • Budget

  20. Implementationplan Overview

  21. Implementation of thelasers Stage 1by 2015 Cuttingedgelasersby2017 ALPS HighRepetitionRate (HR) beamline 100kHz, >5mJ, <5fs, VIS-NIR, CEP >1mJ, <7fs ALPS SingleCycle (SYLOS) beamline 1kHz, >100mJ, <5fs, VIS-NIR, CEP >4TW, <20fs ALPS High Field (HF) beamline Ti:S duty end: 5Hz, >2PW, <20fs, NIR 100Hz, 0.5J, <12fs, NIR >1J, <20fs ALPS Mid-InfraredSource (MIRS) 100kHz, >100J, fewcycle, @ 3m

  22. Implementation of thelasers 1. Via R&D projects 2. Public procurement – Q4 2013 3. Laser R&D projectsforelimination of technologicalbottlenecks Q4 2013 4. Public procurement – Q4 2014

  23. Implementation of thelasers I. 1. Via R&D projects ALPS MIR laser 100kHz, 0.1mJ, <6 (3)cycles, MIR ALPS HR laser 100kHz, >1 (5mJ), <5 (7)fs, VIS-NIR, CEP Q1 2016 Deliverytothe site Q4 2015 ForeseeablecontractingdateareApril / May, 2014

  24. Implementation of thelasers II. 2. Public procurement(contracts: end of May) – Q4 2013 ALPS Sylos 1 laser 1kHz, >4TW, <20fs, VIS-NIR, CEP ALPS HF PW laser ≤5Hz, >2PW, <20fs, NIR Q1 2016Deliverytothe site Q2 2016 3. Laser R&D projectsforelimination of technologicalbottlenecks 4. Public procurement – Q4 2014 ALPS Sylos 2 laser 1kHz, >20TW, 5fs, VIS-NIR, CEP ALPS HF 100 laser 100Hz, >40TW, <12fs,NIR Q4 2016 Deliverytothe site Q3 2016

  25. Laser R&D projects 2013-2014 • Aim is tosupportalready ONGOING experimental (modelling) researchesto: • Explorethelimitation of a technology / process • Find / excludesolutionsfor a technologicalbottleneck(s) Callforproposals: W48 2013 – W10 2014 Contracts: Aplil 2014 Total budget: 2M€

  26. Laser R&D projects 2013-2014 • Development of (diodepumped) pumplasers • (100 Hz, 1 kHz, 0,6 ps – 2 ps, 1J) HF 100, THzpump, Sylos 2 HF 100, Sylos 2 • Nonlinearopticalmethods • (OPCPA (stabilization, bandwidth, technology), SFG, HCF, XPW) HF PW, HF 100, Sylos 2 • Temporalcontrastissues • (OPCPA, highreprateplasmamirror, spatio-temporalfocusing)

  27. Implementation of the secondarysources Via R&D projects – Q1 2014 TDR of thebeamlines TDR of thetargetareas Delivery I: Q3 2014 Delivery II: Q2 2015 Public procurements – Q4 2014 Hardware forthebeamlines Hardware forthetargetareas Delivery I: Q3 2015 Delivery II: Q2 2016 Bythesamegroups / contractors+ ELI-ALPS workforces Via R&D projects – Q1 2015 Implementation of thebeamlines Implementation of thetargetareas Delivery I: Q1 2016 Delivery II: Q4 2017

  28. Procurements Types of procurements R&D procurement (goods / serviceswithdominantR&D part) Public procurements (commerciallyavailablegoods / services) Governinglaws and rules Hungarianlawonpublicprocurements(mind thestrictness!) Rulesrelatedto EU RegionalDevelopment and StructuralFunds Publicity The yearlyprocurementplanavailablefromthewebsite(underenhancement) Allcallsavailablefromthe web site: publicprocurementsvia link to TED; R&D callsdirectly

  29. Procurementsin 2014 Public Procurements Sylos 1, and HF PW lasers(inprogress) Control-commandsystems(plannedtolaunchin Q3) LaserDiagnostics(plannedtolaunchin Q4) Vacuumcomponents(plannedtolaunchin Q4) Specialoptics and detectors (HHG) (plannedtolaunchin Q4) • R&D Procurements • HR and MIR lasersystems(inprogress) • Laser R&D programmes(inprogress) • Design and assembly of GHHG beamlines(inprogress) • Design and assembly of THzsources(inprogress) • Design and assembly of SHHG beamlines(plannedtolaunchin Q2) • Uniquelaserdiagnostics(plannedtolaunchin Q2) • Design of particlesources(plannedtolaunchin Q2)

  30. Phasing and draftbudgetingResearch technology Phase 1 (-2015) Primarysources: 20.3 M€ Secondarysources: 10.8 M€ Labs, workshops: 1.65 M€ Scientific IT 0.39 M€ Phase 2 (-2017) Primarysources(incl. THzpump): 29.0 M€ Secondarysources: 15.1 M€ Labs, workshops: 7.0 M€ Scientific IT 2.03 M€

  31. LAYOUT Scientificareas • Laser hall: 1350 m2 • Target areas: 2100 m2 • Optics labs: 330 m2 • Biology/chemistry/medical labs: 320 m2 • Diagnostics labs: 110 m2 • Mechanical workshops: 530 m2 • Electric / IT workshop: 200 m2

  32. Personnel

  33. R&D personpowerplanning Planned 2016 Status Q1 2014 Leading & seniorscientist: 47 39 persons (16 FTE) Junior scientists: 76 10 persons (9 FTE) Engineers & technicians: 32 16 persons (14 FTE)

  34. Scientific Management L. Lehrner D. Charalambidis K. Osvay T. Kecskés, A. Varga D. Charalambidis K. Osvay S. Brockhauser G. Sansone E. Cormier M. Kalashnikov R. Lopez-Martens Z. Várallyay A. Andreev P. Ranitovic S. Varró … K. Hideghéty … P. Antici P. Dombi S. Kahaly N. Lopes J. Fülöp E. Rácz P. Tzallas K. Varjú K. Bodor L. Fülöp Sz. Szállási …

  35. Thankyouforyourattention!

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