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Schedula 2011 – Thomson Source

Schedula 2011 – Thomson Source. Thomson Source – User Access. LI 2 FE che cosa c’è dietro l’angolo? SPARX@LNF, …. Extreme Light Infrastructure. http://www.eli-np.ro/workshop-10-12-march-2011.php. 6. Courtesy Victor Zamfir. ELI on ESFRI list ELI-PP 2007-2010

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Schedula 2011 – Thomson Source

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  1. Schedula 2011 – Thomson Source

  2. Thomson Source – User Access

  3. LI2FEche cosa c’è dietro l’angolo?SPARX@LNF, …

  4. Extreme Light Infrastructure http://www.eli-np.ro/workshop-10-12-march-2011.php 6 Courtesy Victor Zamfir ELI on ESFRI list ELI-PP 2007-2010 December 2009 (EC) 3 Pillars: CZECH REP: Secondary Sources HUNGARY: Short Pulses ROMANIA: Nuclear Physics (www.eli-np.ro)

  5. IFIN-HH and Partners BUCHAREST ring rail/road Europe is going to invest 280 M€ on ELI-NP in 2012-2015, to launch the Nuclear (and sub-Nuclear) Photonics Program ELI-NP NUCLEAR Tandem accelerator Cyclotron Adv. Detectors Life & Env. Radioisotopes γ – Irradiator Reactor (decomm.) Waste Proc. Plant Courtesy Victor Zamfir

  6. ELI-NP Courtesy Victor Zamfir

  7. ELI-NP Courtesy Toshi Tajima

  8. Studiare il nucleo e le particelle sub-nucleari con la luce Courtesy Toshi Tajima

  9. ELI – Nuclear Physics Research Courtesy Victor Zamfir Nuclear Physics experiments to characterize laser – target interactions Photonuclear reactions. Exotic Nuclear Physics and astrophysics – complementary to other NP large facilities (FAIR, SPIRAL2). Nuclear methods and techniques based on high intensity laser and very brilliant γ beams.

  10. ELI-NP “Start-up” Activities • February 2010 Workshop Scientific case • April 2010 “White Book” (100 scientists, 30 institutions) (www.eli-np.ro) editors: D. Habs et al. • August 2010 Feasibility Study: 280 Meuro 80 Mil. Lasers and beam transport 60 Mil. γ beam 60 Mil. Construction 24 Mil. Experiments 23 Mil. Personnel Courtesy Victor Zamfir

  11. “Extreme Light” two 10 PW APOLLON-type lasers, output energy higher than 200 J, 20-30 fs, intensity higher than 1023W/cm2 the most brilliant γ beam, <19.5 MeV, BW:10-3 produced by Compton scattering on a 600 MeV electron beam (LINAC-X band) ELI – RO Nuclear Physics PLASMONX-2 or Super-PLASMONX ? Courtesy Victor Zamfir

  12. END OF PRESENTATION

  13. Now the Two Pillars of LI2FE aresuccessfully working, independently We must make them work together! LI2FE collaboration was set primarily to stimulate and coordinate this task

  14. SPARC(Sorgente Pulsata e Amplificata di Radiazione Coerente) and PLASMONX(PLasma Acceleration @ Sparc & MONochromatic X-rays) Unique worldwide at these level of combined beam performance High Brightness Electron Beams (ps to fs bunch length) Synchronized to fs level High Intensity Laser Beams (20-100 fs pulses)

  15. FLAME will mark soon a record in light intensity FLAME @ INFN-LNF The Laser Pulse Intensity Chart

  16. Brilliance of X-ray radiation sources Thomson Source @ LNF Compact Thomson Sources extend SR to hard X-ray range allowing Advanced Radiological Imaging inside Hospitals Beam param. invariant under linear optics 12.4 1.24 0.124 l (nm) FLAME SASE-FELs will allow an unprecedented upgrade in Source Brilliance SPARX TTF Covering from the VUV to the 1 Å X-ray spectral range: new Research Frontiers

  17. 1018 1017 AOFEL I [kA] 1016 1015 1014 1013 n[m] Self-Inj LCLS Laminar velocity bunching SPARX Ext-Inj X-ray FEL @ 1 pC normal velocity bunching SPARC Photo-injectors The Electron Beam Brightness Chart [A/(m.rad)2]

  18. LI2FE: the Scientific Program Development of a wide inter-disciplinary research program, combining high brightness high rapidity electron beams (drive plasmas at 7.1019 cm-3 => TV/m) with high intensity ultra-short laser pulses (1019 cm-3 => 250 GV/m), leading in turns to production of a variety of advanced beams of FEL/THz radiation, advanced beams of X/g rays (thanks to a photon-electron collider at 1035 cm-2s-1 luminosity), protons/light ions, and potentials for polarized positrons and neutrons of unique characteristics. Common Denominator: High Phase Space Density

  19. LI2FE Projects and Experiments (co)funded by INFN SPARC - INFN Special Project (cofund. by MIUR, CNR, ENEA) M. Ferrario (see next talk & SPARC-FEL by L. Giannessi ) PLASMONX - Nuove Tecniche Accelerazione - D. Giulietti (morning session, see next session for External Injection by L.S.) SPARX - MIUR, Reg. Lazio, ENEA, CNR, Univ. Tor Vergata L. Palumbo (see next session) BEATS2 - Commissione Scientifica Naz. V – M. Gambaccini LILIA - Nuove Tecniche Accelerazione – C. De Martinis TERASPARC - Commissione Scientifica Naz. V – S. Lupi COMB – Nuove Tecniche Accelerazione - M. Ferrario (see next talk )

  20. Seeding 150 MeV S-band linac Velocity Bunching Diagnostic and Matching Undulators u = 2.8 cm Kmax = 2.2 r = 500 nm S-band Gun 15 m Long Solenoids Beam energy 155–200 MeV Bunch charge 1 nC Rep. rate 10 Hz Peak current 100 A en 2 mm-mrad en(slice) 1 mm-mrad sg 0.2% Bunch length (FWHM) 10 ps THz Source TERASPARC: Terahertz Radiation through the Free-Electron Laser

  21. Acquisition of beam transport lines (magnets and related hardware, mirrors, diagnostics, etc)is ongoing We expect to install all hardware inside SPARC bunker by july 2011 Starting of Thomson Source commissioning in september 2011

  22. FLAME @ INFN-LNF With max intensity available from FLAME (with adaptive optics) we could reach proton energy in excess of 100 MeV. As of now we are limited to 5x1019 W/cm2 and we can foresee a maximum proton energy of 10 MeV

  23. LI2FE: main Research Areas FEL physics and applications Advanced beam physics Laser/Plasma based ion sources Advanced radiation sources and applications Laser/Plasma physics Ultra-high gradient acceleration (plasma, vacuum, IFEL)

  24. LI2FE: Collaboration Board Dimitri Batani - Università Milano Bicocca Maurizio Benfatto - Lab. Naz. Frascati INFN Massimo Carpinelli - Univ. di Sassari Giuseppe Dattoli - ENEA Frascati Giampiero Dipirro - Lab. Naz. Frascati INFN Massimo Ferrario - Lab. Naz. Frascati INFN Santo Gammino - Lab. Naz. del Sud INFN Luca Giannessi - ENEA Frascati Danilo Giulietti - Università di Pisa Leonida Gizzi - ILIL-IPCF, CNR, Pisa Stefano Lupi - Univ. Roma La Sapienza Carlo Mariani - Univ. Roma La Sapienza Luigi Palumbo - Univ. Roma La Sapienza Valerio Rossi Albertini - ISM, CNR, Roma Luca Serafini, chair- INFN Sez. di Milano More Details in: http://www.lnf.infn.it/acceleratori/life/

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  26. LI2FE: the Scientific Program The combined availability of these Beam Sources and related instrumentation, together with advanced expertise in the accelerator/laser/plasma physics and technologies, will lead to unprecedented potentials of research and discoveries at INFN-LNF (multi-institutional effort, INFN, ENEA, CNR, many Univ.) User experiments: application oriented (investigation of matter at functional level) Developer experiments: technique oriented (toward the high energy frontier, propedeutical to investigation of matter at fundamental level)

  27. LI2FE beyond the horizon(an acceleratorist’s vision)PWFA (particle wakefield acceleration) using hyper-short SPARC electron bunches (1pC, sub-fs) to drive plasma waves up to TV/m accelerating fields (beating the high energy frontier)

  28. Unprecedented results in Application Experiments due to unique beams available LI2FE Window of Opportunity (5 year span) Crucial Role in advancing new technologiesfor the High Energy Frontier needless to say… we need the correct Spirit of sharing Expertise and Instrumentation

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