| Program of the IAEA technical meeting on Physics and Technology of IFE targets and chambers. | ||||
| 16 August 2007. | ||||
| No. | Author | Institution | Title | |
| September 13, Morning session (10:50-12:10) | ||||
| Meeting Room R501 on the 5th Floor. | ||||
| IAEAO1 | Mank, Guenter | IAEA | The International Atomic
Energy Agency’s Programme on Inertial Fusion Energy |
|
| IAEAO2 | Schmitt, Andrew | NRL | USA | Laser direct-drive IFE targets: sensitivity to fabrication and drive imperfections |
| IAEAO3 | Perin, J. Paul | CEA GRENOBLE | France | Target Manufacturing and Delivery and Fusion Technology Risks in HiPER |
| IAEAO4 | Shimada, Yoshinori | ILE, Osaka | Japan | Experimental simulation of ablation process of liquid first wall using punch-out target |
| September 13, Afternoon Poster session (13:00-14:30) | ||||
| Meeting Room R503, R504, R505 on the 3F. | ||||
| Plant system, Overview, New concept | ||||
| ThPo1 | Meier, Wayne R. | Lawrence Livermore National Laboratory | USA | Systems Modeling for a Laser-Driven IFE Power Plant using Direct Conversion |
| ThPoIAEA101 | Shmatov, Mikhail | Ioffe Physico-Technical Institute; Department of Solid State Electronics | Russia | Advantages of the fast ignition, direct compression targets with two cones from the viewpoint of IFE reactor chamber physics |
| ThPo2 | Someya, Youji | Graduate School of Engineering, Musashi Institute of Technology | Japan | Maintenance Method and its Critical Issues for a Fast-Ignition Laser Fusion Reactor based on a Dry Wall Chamber |
| Core Plasma | ||||
| ThPoIAEA102 | Rudraiah, Nanjundappa | National Research Institute for Applied Mathematics(NRIAM) | India | The Effects of Electrical Field, Laser Radiation and Roughness at the Ablative Surface of IFE Target to Control the Rayleigh-Taylor Instability |
| ThPoIAEA3 | Hora, Heinrich | Australia | Australia | Single-shot Laser Driven Inertial Confinement Fusion Based on Nanosecond and Picosecond Pulses |
| ThPo4 | Goto, Takuya | Graduate School of Frontier Sciences, The University of Tokyo | Japan | Analysis of a core plasma dynamics and dry wall chamber for fast-ignition IFE power plant |
| Injection and Tracking | ||||
| ThPo5 | Yoshida, Hiroki | Gifu University, Faculty of Engineering | Japan | Coil Gun for IFE Target Injector |
| ThPoIAEA109 | Yoshida, Hiroki | Gifu University, Faculty of Engineering | Japan | Experimental Study of a Coil Gun for Injection and Tracking |
| ThPoIAEA105 | Sakae, Soichiro | Hiroshima University | Japan | Experiments on Gas Gun with Rifling for IFE-Target Injection |
| ThPo6 | Alexander, Neil B. | General Atomics | USA | A target insertion and positioning system for high-power rep-rated lasers |
| ThPoIAEA103 | Kasai, Tomoko | Ibaragi Ujniversity | Japan | Analysis of Trajectory Adjusting System using Magnetic Lens for Superconducting IFE Target |
| ThPoIAEA104 | Saruta, Koichi | Ibaragi Ujniversity | Japan | Application of Target Tracking Method Using Arago Spot and Divergent Beam to In-chamber Measurement |
| ThPo8 | Carlson, Lane C. | University of California - San Diego | USA | Glint System Integration into an IFE Target Tracking and Engagement Demonstration |
| Chambers | ||||
| ThPoIAEA106 | Kunugi, Tomoaki | Kyoto Univeristy | Japan | Proof-Of-Principle Study on Cascade-typed Falling Liquid Film Flow along First Wall of Laser-Fusion Reactor |
| ThPoIAEA107 | Fukada, Satoshi | Kyusyhu University | Japan | Tritium Recovery System for Li-Pb Loop of Inertial Fusion Reactor |
| ThPoIAEA108 | Kajimura, Yoshihiro | Kyusyhu University | Japan | Numerical study for beam port protection by magnetic fields in the Laser Fusion Reactor KOYO-F |
| ThPoIAEA9 | Khaydarov, Rajabbay | Instituto de Fusion Nuclear (DENIM), ETSII, Universidad Politenica de Madrid | Uzbekistan | Investigation of interaction of laser radiation with two elements Sc2O3, Ce2O3, Lu2O3 targets |
| ThPoIAEA110 | Kalal, Milan | Czech Technical University (CTU); Faculty of Nuclear Science and Physical Engineering (FNSPE) | Czech Republic | SBS PCM Technique and its potential role in achieving IFE objectives |
| ThPoIAEA111 | Kasuya, Koichi | Tokyo Institute of Technology | Japan | Applications of Laser and Particle Beam Apparatuses to IFE Reactor Chamber Wall Research Works |
| ThPo10 | Ohshige, Takashi | Institute of Laser Engineering, Osaka University | Japan | Experimental Studies on Formation of Aerosol in Laser Fusion Reactor Chamber by discharge method |
| ThPo11 | Furukawa, Hiroyuki | Institute for Laser Technology | Japan | Study on dynamics of ablation plums produced by fusion products in laser fusion liquid wall chamber |
| ThPoIAEA12 | Diaz, Diego | Instituto de Fusion Nuclear (DENIM), ETSII, Universidad Politenica de Madrid | Spain | Effect of Magnetism in Radiation Damage of Ferritic Steels in KOYO-F |
| ThPoIAEA13 | Herreras Yambanis, Yuri | Instituto de Fusion Nuclear (DENIM)/ETSII/Universidad Politecnica de Madrid (UPM) | Spain | 3D Neutronic Calculations: CAD-MCNP Methodology applied to Vessel Activation in KOYO-F |
| ThPo15 | Gamez, Linarejos | Instituto de Fusion Nuclear (DENIM)/ETSII/Universidad Politecnica Madrid (UPM) | Spain | He and H production and induced Swelling in KOYO-F |
| ThPo16 | Velarde, Marta | Instituto de Fusion Nuclear (DENIM)/ETSII/Universidad Politecnica Madrid (UPM) | Spain | Evaluation of Permeable and Non-Permeable Tritium in Normal Condition in a Fusion Reactor |
| ThPo17 | Cabellos, Oscar | Institute of Nuclear Fusion | Spain | Effect of activation cross-section uncertainties in the assessment of primary damage for MFE/IFE structural materials |
| ThPo19 | Abanades, Alberto | Instituto de Fusion Nuclear (DENIM) / Universidad Politecnica de Madrid (UPM), Madrid, Spain | Spain | Application of Computational Fluid Dynamics (CFD) codes as design tools for Inertial Confinement Fusion reactors |
| ThPoIAEA20 | Fertman, Alexander D. | GSI Institute for Theoretical and Experimental Physics | Experimental investigation of the induced radioactivity in elements of heavy ion accelerators | |
| Drivers for Reactor | ||||
| ThPoIAEA112 | Kong, Hong Jin | KAIST, Department of Physics | Korea | Much improved long-term stabilized beam combined laser system for a laser fusion driver using phase controlled stimulated Brillouin scattering mirrors |
| ThPo35 | Bahbah, Sofiane | LULI, Ecole Polytechnique, CNRS, CEA, UPMC | France | High power Yb:YAG diodes pumped LUCIA front-end oscillator (250 mJ, 50 ns, 2 Hz). |
| ThPo36 | Bourdet, Gilbert L. | LULI, Ecole Polytechnique, CNRS, CEA, UPMC | France | Performances of cryogenic cooled laser based on Ytterbium doped sesquioxide ceramics |
| ThPo37 | Zvorykin, Vladimir D. | P.N. Lebedev Physical Institute of Russian Academy of Sciences, Quantum Radiophysics Division | Russia | Quests for Inertial Fusion Energy conducted at GARPUN KrF laser facility |
| ThPo38 | Chanteloup, Jean-Christophe | CNRS - LULI | France | Wavelength tunable, 264 J Laser Diode Array for 10Hz/1ms Yb:YAG pumping |
| ThPo39 | Albach, Daniel | Ecole Polytechnique, Laboratoire LULI | France | A key issue for next generation Diode Pumped Solid State Laser Drivers for IFE: Amplified Spontaneous Emission in large size, high gain Yb:YAG slabs |
| ThPo40 | Kawanaka, Junji | Osaka University, Institute of Laser Engineering | Japan | New Concept of Laser Fusion Energy Driver by Using Cryogenically-Cooled Yb:YAG Ceramics |
| ThPo41 | Yasuhara, Ryo | Hamamatsu K.K. | Japan | Development of cryogenic TGG ceramic based Faraday rotator for inertial fusion driver |
| ThPo42 | Sekine, Takashi | HAMAMATSU PHOTONICS K. K. | Japan | High order wavefront correction for a 1 Joule class Nd:YLF rod amplifier by phase conjugate plate |
| ThPo43 | Takeuchi, Yasuki | Institute of Laser Engineering, Osaka University | Japan | New design of the temperature controlled pockels cell for IFE driver |
| ThPo44 | Yoshida, Akira | Institute of Laser Engineering, Osaka University | Japan | Numerical laser gain estimation of cryogenic Yb:YAG ceramics for IFE reactor driver |
| ThPo45 | Collier, John | Rutherford Appleton Laboratory | GB | The Astra Gemini Project: A High Repetition Rate Dual Beam Petawatt Laser Facility |
| ThPo46 | Caird, John A. | Lawrence Livermore National Laboratory | USA | Advanced Diode-Pumped Solid-State Lasers (DPSSLs) for Inertial Fusion Energy (IFE) |
| ThPo47 | Goldstein, William H. | Lawrence Livermore National Laboratory (LLNL) | USA | Lawrence Livermore National Laboratory's Jupiter Laser Facility |
| Post dead line paper | ||||
| ThPoIAEA113 | Dhareshwar, L.J. | Bhabha Atomic research Centre | India | Inertial Confinement Fusion targets and Drivers, the Indian scenario |
| September 13, Afternoon (14:30-15:50), Reactors/IAEA, Oral session | ||||
| Meeting Room R501 on the 5th Floor. | ||||
| ThO5.1 | Perlado, Jose Manuel | Instituto de Fusion Nuclear (DENIM)/ETSII/Universidad Politecnica Madrid (UPM) | Spain | Molecular dynamics study of hydrogen isotopes migration in optics. |
| ThO5.2 | Goodin, Daniel T. | General Atomics | USA | Progress in Demonstrating Feasibility of the Target Supply for Laser Fusion |
| ThO5.3 | Ogawa, Yuichi | the University of Tokyo, High Temperature Plasma Center | Japan | Conceptual Design of a Fast-Ignition Laser Fusion Reactor based on a Dry Wall Chamber |
| ThO5.4 | Sharkov, Boris Yu. | Institute for Theoretical and Experimental Physics, Moscow, Russia | Russia | Reactor chamber response in heavy ion fusion energy concept |