Advanced Diagnostics for Magnetic and Inertial Fusion, Softcover reprint of the original 1st ed. 2002

Coordinators: Stott Peter E., Wootton Alan, Gorini Giuseppe, Sindoni Elio, Batani Dimitri

Language: English

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Advanced Diagnostics for Magnetic and Inertial Fusion
Publication date:
433 p. · 17x24.4 cm · Paperback

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Advanced diagnostics for magnetic and inertial fusion
Publication date:
446 p. · Paperback

Proceedings of the International Conference on Advanced Diagnostics for Magnetic and Inertial Fusion, held September 3-7, 2001 at Villa Monastero, Varenna, Italy.

This volume focuses on future diagnostic requirements for fusion energy research emphasizing advanced diagnostics, new techniques and areas where further progress is required.

Fusion Experiments and Related Diagnostic Needs. 1. Requirements and Issues in Diagnostics for Next Step Burning Plasma Experiments; A.E. Costley. 2. Introduction To Diagnostics Requirements for ICF; D. Juraszek. 3. Core Performance and Mix in Direct-Drive Spherical Implosions on Omega; C. Stoeckl, et al. 4. Laser-Plasma Interaction Diagnostics for ICF Fusion Research; W. Seka, et al. 5. Requirements for Diagnostic in Controlling Advanced Tokamak Modes; Y. Kusama. 6. Diagnostic Need for Divertor and Edge Physics; A.W. Leonard. 7. Iter Magnetics: Key Design Issues; G. Vayakis, et al. 8. Diagnostics for Energetic Charged Particles Related to Fast Ignitor Experiments; Y. Kitagawa, et al. 9. Alpha-Particle Measurements Needed for Burning Plasma Experiments; K.M. Young. 10. Diagnostics Based on Helium Neutral Beams In Iter; M.G. O'Mullane, et al. 11. Advanced Concept in Fast Ignition and the Relevant Diagnostics; H. Habara, et al. 12. Recent Experience and Future Plans for Jet Diagnostics; J. Sanchez, et al. 13. Strategy of the Tore Supra Diagnostic Set for Steady-State High Power Operation; C. Laviron. Neutron and Particle Diagnostics. 14. Imaging of Plasmas Using Proton Beams Generated by Ultra-Intense Laser Pulses; M. Borghesi, et al. 15. Nuclear Diagnostics of ICF; N. Izumi, et al. 16. Neutron Emission Spectroscopy for Magnetic Confinement Experiments; J. Källne. 17. Projected Neutron Emission Spectroscopy Diagnosis of Jet DeuteriumPlasmas; G. Gorini, et al. 18. Proposed Magnetic Proton Neutron Spectrometer Upgrade (MPRu); G. Ericsson, et al. 19. The 2.5-MeV Neutron Time of Flight Spectrometer for Optimized Count Rate (TOFOR); A. Hjalmarsson, et al. 20. Measurement of High Energy Proton Temperature in LHD; M. Sasao, et al. 21. Escaping Energetic Ion Measurement on Large Scale Magnetic Fusion Devices; T. Saida, et al. 22. Fast Ion Diagnostic For the W7-X Stellarator; A. Werner, et al. 23. Gamma-Rays: Measurements and Analysis at Jet; V.G. Kiptily, et al. 24. Spatial Distribution Measurements of High Energy Particles Using Time-Of-Flight Neutral Particle Energy Analyzer in Large Helical Device; T. Ozaki, et al. 25. A New Diagnostic to Achieve Neutron Spectroscopy in a High Gamma Background in ICF Experiments; M. Houry, et al. 26. Natural Diamond Detector Based Spectrometer for Magnetic and Inertial Confinement Fusion; A.V. Krasilnikov, et al. 27. Laser Fusion Fuel Ion Temperature Diagnostics; J. Chen, et al. Optical and X-Ray Diagnostics. 28. X-Ray Imaging System With Continuous Time Resolution; Y. Aglitskiy, et al. 29. Rayleigh Taylor and Laser Imprinting Diagnostics; H. Azechi, et al. 30. Plasma Diagnostics in Interaction of Powerful Laser Pulses with Inhomogeneous Low Density Media; A.E. Burgrov, et al. 31. Laser and X-Ray Irradiation Diagnostics that Have Paved the Path to Significant Improved ICF Target Performance; R.L. Keck, et al. 32. Absorption and Fluorescence Spectroscopy as a Diagnostic of Laser Driven Experiments; D.J. Hoarty,