Guillermo Velarde (Institute of Nuclear Fusion, Madrid, Spain), Yigal Ronen, Jose M. Martinez-Val
Nuclear Fusion by Inertial Confinement
A Comprehensive Treatise
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Guillermo Velarde (Institute of Nuclear Fusion, Madrid, Spain), Yigal Ronen, Jose M. Martinez-Val
Nuclear Fusion by Inertial Confinement
A Comprehensive Treatise
- Gebundenes Buch
"Nuclear Fusion By Inertial Confinement: A Comprehensive Treatise" provides a comprehensive analysis of directly driven inertial confinement fusion. All important aspects of the process are covered, including scientific considerations that support the concept, lasers and particle beams as drivers, target fabrication, analytical and numerical calculations, and materials and engineering considerations. Authors from Australia, Germany, Italy, Japan, Russia, Spain and the US have contributed to the volume, making it an internationally significant work.
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"Nuclear Fusion By Inertial Confinement: A Comprehensive Treatise" provides a comprehensive analysis of directly driven inertial confinement fusion. All important aspects of the process are covered, including scientific considerations that support the concept, lasers and particle beams as drivers, target fabrication, analytical and numerical calculations, and materials and engineering considerations. Authors from Australia, Germany, Italy, Japan, Russia, Spain and the US have contributed to the volume, making it an internationally significant work.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Inc
- Seitenzahl: 766
- Erscheinungstermin: 15. Dezember 1992
- Englisch
- Abmessung: 216mm x 289mm x 47mm
- Gewicht: 2014g
- ISBN-13: 9780849369261
- ISBN-10: 0849369266
- Artikelnr.: 21508107
- Verlag: Taylor & Francis Inc
- Seitenzahl: 766
- Erscheinungstermin: 15. Dezember 1992
- Englisch
- Abmessung: 216mm x 289mm x 47mm
- Gewicht: 2014g
- ISBN-13: 9780849369261
- ISBN-10: 0849369266
- Artikelnr.: 21508107
Guillermo Velarde, Yigal Ronen and Jose M. Martinez-Val
An Introduction to Nuclear Fusion by Inertial Confinement (J.M.
Martínez-Val, G. Velarde, and Y. Ronen). The Physics of Directly Driven
Targets (S. Eliezer and H. Hora). Laser-Target Interaction: Laser Energy
Absorption and Nonlinear Plasma Phenomena (V. Yu. Bychenkov and V.T.
Tikhonchuk). Energy Transfer to the Plasma in Laser Targets (Yu.V.
Afanasiev and S.Yu.Gus'kov). Ion Beam-Target Interaction (Z. Zinamon).
Atomic Physics in Dense Plasma (R.M. More). Electron Heat Conduction in ICF
Targets (J.R. Sanmartín). Radiation Transport in ICF Targets (E. Mínguez).
Charged Particle Transport (J.J. Honrubia). ICF Neutronics (M. Piera and
J.M. Martínez-Val). The Compression Phase in ICF Targets (T. Yabe).
Ignition and Burn Propagation in ICF Targets (S. Gus'kov and V. Rozanov).
Hydrodynamic Instability of Target Implosion in ICF (E.G. Gamaly). Solid
State Lasers (J.M. Soures). Excimer Lasers (L. Rosocha, S.J. Czuchlewski,
B.J. Krohn, and J. McLeod). Free Electron Lasers for ICF (W.B. Colson, J.
Blau, D. Craun, D. Gillingham, D. Kiel, J.H. Park, and R. Souza). Heavy Ion
Accelerators for ICF (R.W. Müller). Light-Ion Accelerators for ICF (J.P.
VanDevender and H.-J. Bluhm). Magnetically Imploded Plasma as a Driver for
ICF (J.G. Linhart). Diagnostics of Laser-Imploded Plasma (C. Yamanaka).
Target Fabrication (Y. Izawa and T. Norimatsu). Laser-Driven ICF
Experiments (R.L. McCrory, Jr.). Particle Beam-Driven ICF Experiments (H.U.
Karow and J.P. VanDevender). Irradiation Effects and Activation in
Structural Materials (J.M. Perlado and J. Sanz). ICF Reactors-Conceptual
Design Studies (G. Kessler, G.L. Kulcinski, and R.R. Peterson). Appendix:
Units and Physical Constants. Index.
Martínez-Val, G. Velarde, and Y. Ronen). The Physics of Directly Driven
Targets (S. Eliezer and H. Hora). Laser-Target Interaction: Laser Energy
Absorption and Nonlinear Plasma Phenomena (V. Yu. Bychenkov and V.T.
Tikhonchuk). Energy Transfer to the Plasma in Laser Targets (Yu.V.
Afanasiev and S.Yu.Gus'kov). Ion Beam-Target Interaction (Z. Zinamon).
Atomic Physics in Dense Plasma (R.M. More). Electron Heat Conduction in ICF
Targets (J.R. Sanmartín). Radiation Transport in ICF Targets (E. Mínguez).
Charged Particle Transport (J.J. Honrubia). ICF Neutronics (M. Piera and
J.M. Martínez-Val). The Compression Phase in ICF Targets (T. Yabe).
Ignition and Burn Propagation in ICF Targets (S. Gus'kov and V. Rozanov).
Hydrodynamic Instability of Target Implosion in ICF (E.G. Gamaly). Solid
State Lasers (J.M. Soures). Excimer Lasers (L. Rosocha, S.J. Czuchlewski,
B.J. Krohn, and J. McLeod). Free Electron Lasers for ICF (W.B. Colson, J.
Blau, D. Craun, D. Gillingham, D. Kiel, J.H. Park, and R. Souza). Heavy Ion
Accelerators for ICF (R.W. Müller). Light-Ion Accelerators for ICF (J.P.
VanDevender and H.-J. Bluhm). Magnetically Imploded Plasma as a Driver for
ICF (J.G. Linhart). Diagnostics of Laser-Imploded Plasma (C. Yamanaka).
Target Fabrication (Y. Izawa and T. Norimatsu). Laser-Driven ICF
Experiments (R.L. McCrory, Jr.). Particle Beam-Driven ICF Experiments (H.U.
Karow and J.P. VanDevender). Irradiation Effects and Activation in
Structural Materials (J.M. Perlado and J. Sanz). ICF Reactors-Conceptual
Design Studies (G. Kessler, G.L. Kulcinski, and R.R. Peterson). Appendix:
Units and Physical Constants. Index.
An Introduction to Nuclear Fusion by Inertial Confinement (J.M.
Martínez-Val, G. Velarde, and Y. Ronen). The Physics of Directly Driven
Targets (S. Eliezer and H. Hora). Laser-Target Interaction: Laser Energy
Absorption and Nonlinear Plasma Phenomena (V. Yu. Bychenkov and V.T.
Tikhonchuk). Energy Transfer to the Plasma in Laser Targets (Yu.V.
Afanasiev and S.Yu.Gus'kov). Ion Beam-Target Interaction (Z. Zinamon).
Atomic Physics in Dense Plasma (R.M. More). Electron Heat Conduction in ICF
Targets (J.R. Sanmartín). Radiation Transport in ICF Targets (E. Mínguez).
Charged Particle Transport (J.J. Honrubia). ICF Neutronics (M. Piera and
J.M. Martínez-Val). The Compression Phase in ICF Targets (T. Yabe).
Ignition and Burn Propagation in ICF Targets (S. Gus'kov and V. Rozanov).
Hydrodynamic Instability of Target Implosion in ICF (E.G. Gamaly). Solid
State Lasers (J.M. Soures). Excimer Lasers (L. Rosocha, S.J. Czuchlewski,
B.J. Krohn, and J. McLeod). Free Electron Lasers for ICF (W.B. Colson, J.
Blau, D. Craun, D. Gillingham, D. Kiel, J.H. Park, and R. Souza). Heavy Ion
Accelerators for ICF (R.W. Müller). Light-Ion Accelerators for ICF (J.P.
VanDevender and H.-J. Bluhm). Magnetically Imploded Plasma as a Driver for
ICF (J.G. Linhart). Diagnostics of Laser-Imploded Plasma (C. Yamanaka).
Target Fabrication (Y. Izawa and T. Norimatsu). Laser-Driven ICF
Experiments (R.L. McCrory, Jr.). Particle Beam-Driven ICF Experiments (H.U.
Karow and J.P. VanDevender). Irradiation Effects and Activation in
Structural Materials (J.M. Perlado and J. Sanz). ICF Reactors-Conceptual
Design Studies (G. Kessler, G.L. Kulcinski, and R.R. Peterson). Appendix:
Units and Physical Constants. Index.
Martínez-Val, G. Velarde, and Y. Ronen). The Physics of Directly Driven
Targets (S. Eliezer and H. Hora). Laser-Target Interaction: Laser Energy
Absorption and Nonlinear Plasma Phenomena (V. Yu. Bychenkov and V.T.
Tikhonchuk). Energy Transfer to the Plasma in Laser Targets (Yu.V.
Afanasiev and S.Yu.Gus'kov). Ion Beam-Target Interaction (Z. Zinamon).
Atomic Physics in Dense Plasma (R.M. More). Electron Heat Conduction in ICF
Targets (J.R. Sanmartín). Radiation Transport in ICF Targets (E. Mínguez).
Charged Particle Transport (J.J. Honrubia). ICF Neutronics (M. Piera and
J.M. Martínez-Val). The Compression Phase in ICF Targets (T. Yabe).
Ignition and Burn Propagation in ICF Targets (S. Gus'kov and V. Rozanov).
Hydrodynamic Instability of Target Implosion in ICF (E.G. Gamaly). Solid
State Lasers (J.M. Soures). Excimer Lasers (L. Rosocha, S.J. Czuchlewski,
B.J. Krohn, and J. McLeod). Free Electron Lasers for ICF (W.B. Colson, J.
Blau, D. Craun, D. Gillingham, D. Kiel, J.H. Park, and R. Souza). Heavy Ion
Accelerators for ICF (R.W. Müller). Light-Ion Accelerators for ICF (J.P.
VanDevender and H.-J. Bluhm). Magnetically Imploded Plasma as a Driver for
ICF (J.G. Linhart). Diagnostics of Laser-Imploded Plasma (C. Yamanaka).
Target Fabrication (Y. Izawa and T. Norimatsu). Laser-Driven ICF
Experiments (R.L. McCrory, Jr.). Particle Beam-Driven ICF Experiments (H.U.
Karow and J.P. VanDevender). Irradiation Effects and Activation in
Structural Materials (J.M. Perlado and J. Sanz). ICF Reactors-Conceptual
Design Studies (G. Kessler, G.L. Kulcinski, and R.R. Peterson). Appendix:
Units and Physical Constants. Index.