Implementation of ELI-ALPS, Phase 1 GOP /B ELI ALPS needs, expectations and constraints Ervin Racz HEPTech Workshop, Prague 7th April, 2014 Implementation of ELI-ALPS, Phase 1 GOP /B Outline -Mission -Strategy -Design of ELI ALPS -Schematics of ELI ALPS -Implementation -Personnel Implementation of ELI-ALPS, Phase 1 GOP /B Mission, general aims Implementation of ELI-ALPS, Phase 1 GOP /B )To generate X-UV and X-ray fs and atto pulses, for temporal investigation at the attosecond scale of electron dynamics in atoms, molecules, plasmas and solids. ATTOSECOND Beamlines & User Facility 2) To contribute to the technological development towards 200PW HIGH INTENSITY beamline Missions of ELI-ALPS Implementation of ELI-ALPS, Phase 1 GOP /B ELI-ALPS Light sources shortest widest The shortest pulse durations at the widest spectral range highest at the highest repetition rate. Implementation of ELI-ALPS, Phase 1 GOP /B Strategy Implementation of ELI-ALPS, Phase 1 GOP /B Supported by EU Regional Funds (85%) Cumbersome and complicated burocratic processes and organizations Legal form company (ELI-Hu Nonprofit Ltd.) - Rare (at least in Hungary) - Advantages: flexible, clear rules, non-governmental establishment, efficient organisation - Disadvantages: logics of scientific and financial are different, no tenure track (in classic sense), National environment (in Hungary): - 3 elections in 2014 (temporary effect, with short decay time) - Economy is just to start growing slowly - The project is in focus flagship EU and innovation project (Far the largest science related expenditure in Hungary since 50s.) General Stategy of Implementation Implementation of ELI-ALPS, Phase 1 GOP /B Specs and basic designs coordinated by ELI-Hu Nonprofit Ltd. Minimize on site developments during Phase 1 Make R&D contracts to place of expertise (Research Institutes, Universities, and Industries) Make industrial contracts Custom made systems at the cutting edge Solve HR problems (Spread graduates and postdocs to R&D places to participate in key developments & products.) Scientific Stategy of Implementation Implementation of ELI-ALPS, Phase 1 GOP /B Designs of ELI ALPS Conceptual Design Report Technical Design Report Collaborations Implementation of ELI-ALPS, Phase 1 GOP /B Design of ELI-ALPS I ELI-PP Mission Basic scientific directions ELI-ALPS July 2010 December 2010 Feasibility study for the Scientific Case of ELI-ALPS March 2011 June 2011 Planned research Activities of ELI-ALPS Feasibility study of ELI-ALPS part of project application to the EU. Completed: June, 2012 ELI-PP White Book Doc available from the website Implementation of ELI-ALPS, Phase 1 GOP /B Status: primary and secondary sources completed, measurements completed SAC approved Under completion: preparation, diagnostics labs, workshop, facility issues Conceptual Design Report by the international community Part I (sources, science and IT) Part II (labs, workshops) is due Q By Research Institutes and Universities Design of ELI-ALPS II. Implementation of ELI-ALPS, Phase 1 GOP /B Technical design (TDR) by the contractors Part I is due by Q By mainly industrial partners Design of ELI-ALPS III Technical Design Report Implementation of ELI-ALPS, Phase 1 GOP /B Collaboration with industry and Academia Major areas Lasers, optics, mechatronics, X-ray, THz sources, particles, diagnostics, vacuum technology, sci IT, control-command, safety) Intellectual Property (IP) issues Clusters No direct IP acquisition possibility. 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. In Hungary:platform for laser technology (later on is cluster form) cluster for ELI-related training (supported by national sources by 3M, between ) In Europe: direct & indirect contacts Implementation of ELI-ALPS, Phase 1 GOP /B Schematics of ELI ALPS General Scientific Scheme Lasers Secondary Sources Implementation of ELI-ALPS, Phase 1 GOP /B Schematics of ELI-ALPS Implementation of ELI-ALPS, Phase 1 GOP /B Schematics of the lasers Implementation of ELI-ALPS, Phase 1 GOP /B Schematics of ELI-ALPS Implementation of ELI-ALPS, Phase 1 GOP /B Gas High Harmonics Generation and Attosecond Pulses 1kHz-100kHz, 4-400eV, up to 10 J Solid High Harmonics Generation and Attosecond Pulses 5Hz 1kHz, 10eV 5keV, up to mJ THz sources 3MV/cm 100MV/cm, up to 1mJ New Concepts for HHG and Attosecond Pulse Generation Electron and Ion Acceleration ( to support regional sciences only ) e - : 1-2GeV, 0.2nC; p + : up to 160MeV, up to 1nC Secondary sources Implementation of ELI-ALPS, Phase 1 GOP /B Implementation Overview Implementation of lasers Implementation of lasers (R&Ds) Implementation of secondary sources Implementation of secondary sources (R&D and public procurements) Scientific areas (layout) Budget Implementation of ELI-ALPS, Phase 1 GOP /B Implementation plan Overview Implementation of ELI-ALPS, Phase 1 GOP /B ALPS High Repetition Rate (HR) beamline 100kHz, >5mJ, 100mJ, 2PW, 1 (5mJ), 40TW,