The Physics of Inertial Fusion
Beam Plasma Interaction, Hydrodynamics, Hot Dense Matter
International Series of Monographs on Physics Series, Vol. 125

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Language: English
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The physics of inertial fusion: beam plasma interaction, hydrodynamics, hot dense matter (International series of monographs on physics, N° 125)
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480 p. · 19x24.7 cm · Hardback

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The Physics of Inertial Fusion: BeamPlasma Interaction, Hydrodynamics, Hot Dense Matter (International Series of Monographs on Physics) (No. 125)
Publication date:
480 p. · 19.5x25.4 cm · Hardback
This book is on inertial confinement fusion, an alternative way to produce electrical power from hydrogen fuel by using powerful lasers or particle beams. It involves the compression of tiny amounts (micrograms) of fuel to thousand times solid density and pressures otherwise existing only in the centre of stars. Thanks to advances in laser technology, it is now possible to produce such extreme states of matter in the laboratory. Recent developments have boosted laser intensities again with new possibilities for laser particle accelerators, laser nuclear physics, and fast ignition of fusion targets. This is a reference book for those working on beam plasma physics, be it in the context of fundamental research or applications to fusion energy or novel ultra-bright laser sources. The book combines quite different areas of physics: beam target interaction, dense plasmas, hydrodynamic implosion and instabilities, radiative energy transfer as well as fusion reactions. Particular attention is given to simple and useful modelling, including dimensional analysis and similarity solutions. Both authors have worked in this field for more than 20 years. They want to address in particular those teaching this topic to students and all those interested in understanding the technical basis.
Foreword, Preface, 1: Nuclear Fusion Reactions, 2: Thermonuclear Fusion and Confinement, 3: Inertial Confinement by Spherical Implosion, 4: Ignition and Burn, 5: Energy Gain, 6: Hydrodynamics, 7: Thermal Waves and Ablative Drive, 8: Hydrodynamic Stability, 9: Hohlraum Targets, 10: Hot Dense Matter, 11: Beam-Target Interaction, 12: Fast Ignition, References
Stefano Atzeni is Professor of Physics in the Dipartimento di Energetica, Università di Roma "La Sapienza" and INFM, Italy ; Jürgen Meyer-ter-Vehn is Professor of Physics at the Max Planck Institute for Quantum Optics, Garching, and at the Technical University of Munich, Germany
  • A comprehensive, richly illustrated reference that will last (link to full PDF contents list below)
  • Clear and economicalNBexposition of theNBphysics underlying inertial confinement fusion
  • Comprehensive, up-to-date, and well-organizedNB
  • Application to future energy generation by thermonuclear fusion