Gérard MOUROU IZEST Ecole Polytechnique IZEST ENABLING TECHNOLOGY Extreme Light Road Map LMJ/NIF, 2MJ, 3B Vacuum Polarization E p =m p c 2 MJ XCELS kj IZEST C 3 TeV GeV ELI, kj.3 B E e =m 0 c 2 J MeV mj ev 1
Laser Sources for Ultrahigh Intensity Applications: Particle Acceleration and Radiation Generation High Peak power PW (10 23 W/cm 2 ) High Average power ~50kW High Efficiency >20% Output: 40J@1Hz = 40W 2
It s a light bulb. Output: 40J@1Hz = 40W Input:150kW Efficiency< 10-4 3
Why this obsession for Peak Power? Laser Peak power provides: o The Highest E fields to explore vacuum nonlinearity, dark matter, o Generation of high energy Particles from visible to TeV and possibly PeV o Shortest light bursts visible to Gamma Ray (as to zs) o Highest temperatures o Highest acceleration 10 28 g IZEST a New Paradigm in Laser and High Energy Physics IZEST is based on large scale facilities developped over the past 20 years for Laser fusion Based on the large laser fusion, High Field Science, High energy fundamental Physics communities. Huge body of work in Plasma Physics 4
IZEST Triggering a Revolution in Laser Technology Driver Highest Peak Power will demand higher damage components based on Plasma Optics from J/cm2 to 10kJ/cm2 Laser Acceleration will enable 100GeV single stage to reach multistage TeV-PeV level Scientific and Societal Applications will require much higher and efficient average power: Project ICAN from single Watt to Megawatt IZEST Benefit from the largest Pump Lasers Up to the MJ PETAL-LMJ NIF LLNL 5
LASER LIMIT in PEAK POWER 6
Conventional Grating must be replaced by Plasma Grating Grating Damage limit Plasma Grating Conventional grating damage Threshold for femtosecond pulses ~100mJ/cm 2 Plasma «Damage Theshold» ~ 10 4 times better Plasma Gratings are naturally provided by Backward Stimulated Raman or Brillouin Scattering 7
Backward Raman or Brillouin Amplification Electron Plasma Wave or Ion-acoustic Wave in the Strong-Coupled Regime L Cell = ct pump 2 Backwards Raman Amplification(BRA) V. M. Malkin, G. Shvets, and N. J. Fisch, Phys. Rev. Lett. 82, 4448(1999). S. Suckewer et al. Nature Phys. Oct. 2007 Cascaded Compression Conversion C 3 G. A. Mourou a,n. J. Fisch b,*, V.M Malkin b, Z. Toroker b, E.A. Khazanov c, A.M. Sergeev c, T. Tajima d, B. Le Garrec, Exawatt Zettawatt Generation and Applications, Optics Communications 285 (2011) 720 724 8
Plasma Focusing Optics Focusing Ultrahigh Intensity Beam Plasma Optics 5-10 kj/cm 2 Damage Threshold Optics 100kJ~ 3cm diameter 9
IZEST The sources of the Shortest Pulses Zeptosecond The Pulse Duration-Intensity Conjecture G.A. Mourou and T. Tajima, More intense Shorter Pulse, SCIENCE VOL 331, 7, p 41JANUARY 2011 10
Light Dispersion From quantum Vacuum Gamma Ray Burst mn Duration, 10mn spread 1billion years, Lorentz Invariance Violation On a table Zeptosecond Delay Zeptosecond Gamma Ray 11
IZEST the Source of Highest Energy Particles and Radiations Laser Wake Field Acceleration ource of High energy electrons And Photons T. Tajima 12
130GeV Experiment on the PETAL laser 13
RELATIVITIC PROTON GENERATION Extreme Light Road Map LMJ/NIF, 2MJ, 3B Vacuum Polarization E p =m p c 2 MJ XCELS kj IZEST C 3 TeV GeV ELI, kj.3 B E e =m 0 c 2 J MeV mj ev 14
Front and back acceleration mechanisms Peak energy scales as : E M ~ (I L ) 1/2 The Ultra relativistic:relativistic Ions Non relativistic ions Photons C V p ~0 E p ~ I 1/2 Relativistic ions >10 23 V p ~C Photons C E p ~ I Can reach 100% 15
IZEST Aspires to push the average power of Ultra intense laser from Watt to MW (ICAN) 16
J. Bourderionnet, A. Brignon (Thales), C. Bellanger, J. Primot (ONERA) Coherent Fiber Combining Phase processing and feedback loop 1W PM EDFA 1 2 splitters 1W PM EDFAs fiber array 2:1image relay QWLSI polar. controller lenslet array laser output Laser diode 1.55µm 1 16 splitters 16 4-channels PLZT phase modulators far-field observation Achievement 2011 64 phase-locked fibers 64 CW fibers have been phased (Thales) 17
Putting Everything Together: Applications of Ultrahigh and High: Average power Applications Scientific : Prompt acceleration TeV Physics beyond the Standard Model Vacuum Structure Dark Matter Search TeV Astrophysics. Societal: Proton Acceleration and Applications: -Accelerator Driven System(ADS) for Transmutation of Nuclear waste treatment -Accelerator Driven Reactor(ADR) sub-critical Reactor, Safe Energy Production, 18
Laser-Based High Energy and Fundamental Physics: Exawatt to Zettawatt IZEST ELI XCELS LMJ, NIF 2010 2015 2020 2025 2030 G. Mourou IZEST 28-29/11/2011 19
Thank you! IZEST is not ELI ELI is conceived to be an infrastructure aiming at many objectives. It is a user facility IZEST is the converse. It aim at one objective involving many infrastructures. It is a large R&D project. ELI aspires to be an european infrastructure While IZEST aims to be an international one. 20
Applications of Ultra High Intensity Laser Prompt acceleration TeV Physics beyond the Standard Model Vacuum Structure Dark Matter Search TeV Astrophysics IZEST a New Paradigm in Laser and High Energy Physics IZEST defines fresh directions to the laser, Plasma, High Energy and Astrophysics communities. IZEST reinvents laser and acceletation Technology and extends the societal applications. 21