No CrossRef data available.
Article contents
Edward Teller Lectures—Lasers and Inertial Fusion Energy, Heinrich Hora and George H. Miley, eds.
Published online by Cambridge University Press: 08 June 2006
Extract
Edward Teller Lectures—Lasers and Inertial Fusion Energy, Heinrich Hora and George H. Miley, eds. Foreword by E.M. Campbell. First edition. Imperial College Press, London, 365 pp. US $63.00 ISBN: 1-86094-468-X
Since 1991, the Edward Teller Medal is awarded to individual researchers in recognition of their respective pioneering experimental or theoretical work in the field of intense laser and particle beam physics, and physics application of high power drivers, which is exactly the field that the journal Laser and Particle Beams covers in great detail. Motivation of this research field is the investigation of properties of high energy density matter with the ultimate goal to achieve inertial fusion in the laboratory under reproducible conditions, and to develop a scientific basis for inertial fusion energy.
- Type
- BOOK REVIEW
- Information
- Copyright
- © 2006 Cambridge University Press
References
REFERENCES
Badziak, J.,
Glowacz, S.,
Jablonski, S.,
Parys, P.,
Wolowski, J. &
Hora, H.
(2005a).
Laser-driven generation of high-current ion beams using skin-layer
ponderomotive acceleration.
Laser Part. Beams
23,
401–409.Google Scholar
Badziak, J.,
Glowacz, S.,
Jablonski, S.,
Parys, P.,
Wolowski, J. &
Hora, H.
(2005b).
Generation of picosecond high-density ion fluxes by skin-layer
laser-plasma interaction.
Laser Part. Beams
23,
143–148.Google Scholar
Hora, H.,
Badziak, J.,
Glowacz, S.,
Jablonski, S.,
Skladanowski, Z.,
Osman, F.,
Cang, Y.,
Zhang, J.,
Miley, G.H.,
Peng, H.S.,
He, X.T.,
Zhang, W.Y.,
Rohlena, K.,
Ullschmied, J. &
Jungwirth, K.
(2005a).
Fusion energy from plasma block ignition.
Laser Part. Beams
23,
423–432.Google Scholar
Hora, H.
(2005b).
Difference between relativistic petawatt-picosecond laser-plasma
interaction and subrelativistic plasma-block generation.
Laser Part. Beams
23,
441–451.Google Scholar
Hora, H.
(2005c).
Book Review on: Physics of Inertial Fusion: Beam Plasma Interaction,
Hydrodynamics, Hot Dense Matter Authors: Stefano Atzeni and Jürgen
Meyer-ter-vehn.
Laser Part. Beams
23,
597–598.Google Scholar
Hora, H.
(2006).
From laser produced Debye layers in plasma to a theory of nuclear
forces and quark-gluon plasmas.
Laser Part. Beams
24,
35–40.Google Scholar
Hora, H.
(2004).
Developments in inertial fusion energy and beam fusion at magnetic
confinement.
Laser Part. Beams
22,
439–449.Google Scholar
Jablonski, S.,
Hora, H.,
Glowacz, S.,
Badziak, J.,
Cang, Y. &
Osman, F.
(2005).
Two-fluid computations of plasma block dynamics for numerical
analyze of rippling effect.
Laser Part. Beams
23,
433–440.Google Scholar
Kilkenny, J.D.,
Alexander, N.B.,
Nikroo, A.,
Steinman, D.A.,
Nobile, A.,
Bernat, T.,
Cook, R.,
Letts, S.,
Takagi, M. &
Harding, D.
(2005).
Laser targets compensate for limitations in inertial confinement
fusion drivers.
Laser Part. Beams
23,
475–482.Google Scholar
Lan, K.,
Fill, E. &
Meyer-Ter-Vehn, J.
(2004).
Photopumping of XUV lasers by XFEL radiation.
Laser Part. Beams
22,
261–266.Google Scholar
Li, X.Z.,
Liu, B.,
Chen, S.,
Wei, Q.M. &
Hora, H.
(2004).
Fusion cross-sections for inertial fusion energy.
Laser Part. Beams
22,
469–477.Google Scholar
Miley, G.H.,
Hora, H.,
Osman, F.,
Evans, P. &
Toups, P.
(2005).
Single event laser fusion using ns-MJ laser pulses.
Laser Part. Beams
23,
453–460.Google Scholar
Neumayer, P.,
Bock, R.,
Borneis, S.,
Brambrink, E.,
Brand, H.,
Caird, J.,
Campbell, EM.,
Gaul, E.,
Goette, S.,
Haefner, C.,
Hahn, T.,
Heuck, HM.,
Hoffmann, D.H.H.,
Javorkova, D.,
Kluge, H.J.,
Kuehl, T.,
Kunzer, S.,
Merz, T.,
Onkels, E.,
Perry, MD.,
Reemts, D.,
Roth, M.,
Samek, S.,
Schaumann, G.,
Schrader, F.,
Seelig, W.,
Tauschwitz, A.,
Thiel, R.,
Ursescu, D.,
Wiewior, P.,
Wittrock, U.,
Zielbauer, B.
(2005).
Status of PHELIX laser and first experiments.
Laser Part. Beams
23,
385–389.Google Scholar
Osman, F.,
Beech, P. &
Hora, H.
(2004a).
Solutions of the nonlinear paraxial equation due to laser
plasma-interactions.
Laser Part. Beams
22,
69–74.Google Scholar
Osman, F.,
Ghahramani, N. &
Hora, H.
(2005).
Debye sheath mechanism at laser plasma interaction and
generalization to nuclear forces and quark-gluon plasma.
Laser Part. Beams
23,
461–466.Google Scholar
Osman, F.,
Cang, Y.,
Hora, H.,
Cao, L.H.,
Liu, H.,
Badziak, J.,
Parys, A.B.,
Wolowski, J.,
Woryna, E.,
Jungwirth, K.,
Kralikova, B.,
Krasa, J.,
Laska, L.,
Pfeifer, M.,
Rohlena, K.,
Skala, J. &
Ullschmied, J.
(2004b).
Skin depth plasma front interaction mechanism with prepulse
suppression to avoid relativistic self-focusing for high-gain laser
fusion.
Laser Part. Beams
22,
83–87.Google Scholar
Pegoraro, F.,
Atzeni, S.,
Borghesi, M.,
Bulanov, S.,
Esirkepov, T.,
Honrubia, J.,
Kato, Y.,
Khoroshkov, V.,
Nishihara, K.,
Tajima, T.,
Temporal, M. &
Willi, O.
(2004).
Production of ion beams in high-power laser-plasma interactions and
their applications.
Laser Part. Beams
22,
19–24.Google Scholar
Perlado, J.M.,
Sanz, J.,
Velarde, M.,
Reyes, S.,
Caturla, MJ.,
Arevalo, C.,
Cabellos, O.,
Dominguez, E.,
Marian, J.,
Martinez, E.,
Mota, F.,
Rodriguez, A.,
Salvador, M.,
Velarde, G.
(2005).
Activation and damage of fusion materials and tritium effects in
inertial fusion reactors: Strategy for adequate irradiation.
Laser Part. Beams
23,
345–349.Google Scholar
Sari, A.H.,
Osman, F.,
Doolan, K.R.,
Ghoranneviss, M.,
Hora, H.,
Hopfl, R.,
Benstetter, G. &
Hantehzadeh, M.H.
(2005).
Application of laser driven fast high density plasma blocks for ion
implantation.
Laser Part. Beams
23,
467–473.Google Scholar