1. Feb 2001:NRL 2. May 2001:NRL 3. Nov 2001:LLNL 4.Apr 2002:GA 5. Dec 2002:NRL 6. Apr 2003:Sandia 7. Sep 2003:Wisconsin 8. Feb 2004:Georgia Tech 9. Jun.

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1. Feb 2001:NRL 2. May 2001:NRL 3. Nov 2001:LLNL 4.Apr 2002:GA 5. Dec 2002:NRL 6. Apr 2003:Sandia 7. Sep 2003:Wisconsin 8. Feb 2004:Georgia Tech 9. Jun 2004:UCLA ,2,5 Welcome to the ninth HAPL meeting Courtesy, Mark Tillack, UCSD

The High Average Power Laser (HAPL) Program: An integrated program to develop the science and technology for Laser Fusion Energy Lasers DPPSL (LLNL) KrF (NRL) Target Fabrication Target Injection Chamber/Materials Final Optics Target Design (+NRL & LLE ) 6 Government labs, 9 Universities, 14 Industries Government Labs 1.NRL 2.LLNL 3.SNL 4.LANL 5.ORNL 6.PPPL Universities 1.UCSD 2.Wisconsin 3.Georgia Tech 4.UCLA 5.U Rochester, LLE 6.PPPL 7.UC Santa Barbara 8.UNC 9.DELFT Industry 1.General Atomics 2.Titan/PSD 3.Schafer Corp 4.SAIC 5.Commonwealth Technology 6.Coherent 7.Onyx 8.DEI 9.Mission Research Corp 10.Northrup 11.Ultramet, Inc 12.Plasma Processes, Inc 13.Optiswitch Technology 14.Plasma Processing, Inc

From FPA "Fusion Program Notes"- - FESAC Panel Urges Balanced Inertial Fusion Energy Effort A panel of the Department of Energy's Fusion Energy Sciences Advisory Committee (FESAC), charged with reviewing its Inertial Fusion Energy (IFE)program, has urged the Department to carry out "a coordinated program with some level of research on all the key components (targets, drivers and chambers), always keeping the end product and its explicit requirements in mind." "In sum the IFE Panel is of the unanimous opinion that the IFE program is technically excellent and that it contributes in ways that are noteworthy to the ongoing missions of the DOE." The full FESAC endorsed the Panel report at it meeting March 29, 2004 and transmitted it to DOE Office of Science Director Ray Orbach.

Louis Pasteur Thomas Edison Neils Bohr Audubon Society The Four Quadrants of Scientific Research Goal is understanding? Yes No Yes No Goal is an application? adapted from "Pasteur's Quadrant", Donald E. Stokes, Brookings Press, 1997 The HAPL Program

The Path to develop Laser Fusion Energy Phase II Phase III Engineering Test Facility operating  2020 Engineering Test Facility  Full size laser: 2-3 MJ, 60 laser lines  Optimize targets for high yield  Optimize chamber materials and components.   MW net electricity Phase I: Ignition Physics Validation MJ target implosions Calibrated 3D simulations Target Design & Physics 2D/3D simulations 1-30 kJ laser-target expts Develop Full Scale Components Power plant laser beam line Target fab/injection facility Materials evaluations Power Plant design Basic Science and Technology Krypton fluoride laser Diode pumped solid state laser Target fabrication & injection Final optics Chambers materials/design

"Energy Options for the Future" meeting hosted by The US Naval Research Laboratory 11 & 12 March, 2004 Organized by John Sheffield and Steve Obenschain Energy ProjectionsJohn Sheffield (Senior Fellow, Joint Institute for Energy and Environment, U.T.) Climate Change Technology David Conover (Director, CCTP) Program Coal & Gas Rita Bajura (Director, National Energy Technology Laboratory) Oil David Greene (Lab. Fellow, National Transportation Research Center, ORNL) Energy Efficiency Marilyn Brown (Director, Energy Efficiency & Renewable Energy Program, ORNL) Renewables Eldon Boes (Director, Energy Analysis Office, NREL) Nuclear Kathryn McCarthy (Director, Nuclear Science & Engineering, INEEL) Power Industry Perspective David Christian (Senior Vice President, Dominion Resources Inc.) Paths to Fusion PowerStephen Dean (President, Fusion Power Associates)

There are many possible future options for energy... All will require significant R&D to establish viability. 3.6 MW Wind Turbine MW Solar Electric Plant FutureGen: 275 MW Clean Coal Prototype Plant: Goal Gasification + CO 2 sequestering

The Path to develop Laser Fusion Energy Phase II Phase III Engineering Test Facility operating  2020 Engineering Test Facility  Full size laser: 2-3 MJ, 60 laser lines  Optimize targets for high yield  Optimize chamber materials and components.   MW net electricity Phase I: Ignition Physics Validation MJ target implosions Calibrated 3D simulations Target Design & Physics 2D/3D simulations 1-30 kJ laser-target expts Develop Full Scale Components Power plant laser beam line Target fab/injection facility Materials evaluations Power Plant design Basic Science and Technology Krypton fluoride laser Diode pumped solid state laser Target fabrication & injection Final optics Chambers materials/design

Thanks Ralph for all your help!!! HAPL meeting, Georgia Tech, Feb 5 & 6, 2004

Thanks, Steve!!

Why we are doing what we are doing...

Develop technologies that can simultaneously meet fusion energy requirements for efficiency (> 6%), wavelength (351 or 248 nm) repetition rate (5-10 Hz), and durability (>100,000,000 shots continuous). Demonstrate required laser beam quality and pulse shaping Laser technologies employed must scale to reactor size laser modules and project to have attractive costs for commercial fusion energy. KrF Laser (Electra-NRL) Goals for Laser Development DPSSL (Mercury-LLNL)