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 µJ 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, <5fs, VIS-NIR, CEP ALPS Single Cycle (SYLOS) beamline 1kHz, >100mJ, <5fs, VIS-NIR, CEP ALPS High Field (HF) beamline Ti:S duty end: 5Hz, >2PW, <20fs, NIR 100Hz, 0.5J, <12fs, NIR >1mJ, <7fs >4TW, <20fs >1J, <20fs Cutting edge lasers by 2017 Stage 1 by 2015 ALPS Mid-Infrared Source (MIRS) 100kHz, >100  J, few 3  m Implementation of the lasers

Implementation of ELI-ALPS, Phase 1 GOP /B Via R&D projects 2. Public procurement – Q Laser R&D projects for elimination of technological bottlenecks Q Public procurement – Q Implementation of the lasers

Implementation of ELI-ALPS, Phase 1 GOP /B ALPS HR laser 100kHz, >1 (5mJ), <5 (7)fs, VIS-NIR, CEP ALPS MIR laser 100kHz, 0.1mJ, <6 (3)cycles, MIR 1. Via R&D projects Q Delivery to the siteQ Foreseeable contracting date are April / May, 2014 Implementation of the lasers I.

Implementation of ELI-ALPS, Phase 1 GOP /B ALPS Sylos 1 laser 1kHz, >4TW, <20fs, VIS-NIR, CEP ALPS HF PW laser ≤5Hz, >2PW, <20fs, NIR 3. Laser R&D projects for elimination of technological bottlenecks ALPS Sylos 2 laser 1kHz, >20TW, 5fs, VIS-NIR, CEP ALPS HF 100 laser 100Hz, >40TW, <12fs, NIR 2. Public procurement (contracts: end of May) – Q Q Delivery to the siteQ Public procurement – Q Q4 2016Delivery to the siteQ Implementation of the lasers II.

Implementation of ELI-ALPS, Phase 1 GOP /B Laser R&D projects Aim is to support already ONGOING experimental (modelling) researches to:  Explore the limitation of a technology / process  Find / exclude solutions for a technological bottleneck(s) Call for proposals:W – W Contracts: Aplil 2014 Total budget: 2M€

Implementation of ELI-ALPS, Phase 1 GOP /B  Development of (diode pumped) pump lasers (100 Hz, 1 kHz, 0,6 ps – 2 ps, 1J)  Nonlinear optical methods (OPCPA (stabilization, bandwidth, technology), SFG, HCF, XPW)  Temporal contrast issues (OPCPA, high reprate plasma mirror, spatio-temporal focusing) HF 100, THz pump, Sylos 2 HF 100, Sylos 2 HF PW, HF 100, Sylos 2 Laser R&D projects

Implementation of ELI-ALPS, Phase 1 GOP /B TDR of the beamlines TDR of the target areas Implementation of the secondary sources Via R&D projects – Q Delivery I: Q Delivery II: Q Public procurements – Q Hardware for the beamlines Hardware for the target areas Delivery I: Q Delivery II: Q Implementation of the beamlines Implementation of the target areas Via R&D projects – Q Delivery I: Q Delivery II: Q By the same groups / contractors + ELI-ALPS workforces

Implementation of ELI-ALPS, Phase 1 GOP /B Procurements R&D procurement (goods / services with dominant R&D part) Public procurements (commercially available goods / services) Types of procurements Governing laws and rules Hungarian law on public procurements (mind the strictness!) Rules related to EU Regional Development and Structural Funds Publicity The yearly procurement plan available from the website (under enhancement) All calls available from the web site: public procurements via link to TED; R&D calls directly

Implementation of ELI-ALPS, Phase 1 GOP /B Public Procurements Sylos 1, and HF PW lasers (in progress) Control-command systems (planned to launch in Q3) Laser Diagnostics (planned to launch in Q4) Vacuum components (planned to launch in Q4) Special optics and detectors (HHG) (planned to launch in Q4) R&D Procurements HR and MIR laser systems (in progress) Laser R&D programmes (in progress) Design and assembly of GHHG beamlines (in progress) Design and assembly of THz sources (in progress) Design and assembly of SHHG beamlines (planned to launch in Q2) Unique laser diagnostics (planned to launch in Q2) Design of particle sources (planned to launch in Q2) Procurements in 2014

Implementation of ELI-ALPS, Phase 1 GOP /B Phasing and draft budgeting Research technology Phase 1 (-2015) Primary sources: 20.3 M€ Secondary sources:10.8 M€ Labs, workshops: 1.65 M€ Scientific IT 0.39 M€ Phase 2 (-2017) Primary sources (incl. THz pump) : 29.0 M€ Secondary sources:15.1 M€ Labs, workshops: 7.0 M€ Scientific IT 2.03 M€

Implementation of ELI-ALPS, Phase 1 GOP /B LAYOUT Scientific areas Laser hall: 1350 m 2 Target areas: 2100 m 2 Optics labs: 330 m 2 Biology/chemistry/ medical labs: 320 m 2 Diagnostics labs: 110 m 2 Mechanical workshops: 530 m 2 Electric / IT workshop: 200 m 2

Implementation of ELI-ALPS, Phase 1 GOP /B Personnel

Implementation of ELI-ALPS, Phase 1 GOP /B Leading & senior scientist: Junior scientists: 47 Engineers & technicians: Status Q persons (16 FTE) 10 persons (9 FTE) 16 persons (14 FTE) R&D personpower planning Planned 2016

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

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