Juergen Meyer-ter-Vehn
Juergen Meyer-ter-Vehn
Bestätigte E-Mail-Adresse bei mpq.mpg.de
Zitiert von
Zitiert von
The Physics of Inertial Fusion: BeamPlasma Interaction, Hydrodynamics, Hot Dense Matter
S Atzeni, J Meyer-ter-Vehn
OUP Oxford, 2004
Laser wake field acceleration: the highly non-linear broken-wave regime
A Pukhov, J Meyer-ter-Vehn
Applied Physics B 74 (4-5), 355-361, 2002
Relativistic magnetic self-channeling of light in near-critical plasma: three-dimensional particle-in-cell simulation
A Pukhov, J Meyer-ter-Vehn
Physical review letters 76 (21), 3975, 1996
Short‐pulse laser harmonics from oscillating plasma surfaces driven at relativistic intensity
R Lichters, J Meyer‐ter‐Vehn, A Pukhov
Physics of Plasmas 3 (9), 3425-3437, 1996
Transient states of matter during short pulse laser ablation
K Sokolowski-Tinten, J Bialkowski, A Cavalleri, D von der Linde, A Oparin, ...
Physical Review Letters 81 (1), 224, 1998
Particle acceleration in relativistic laser channels
A Pukhov, ZM Sheng, J Meyer-ter-Vehn
Physics of Plasmas 6 (7), 2847-2854, 1999
MULTI—A computer code for one-dimensional multigroup radiation hydrodynamics
R Ramis, R Schmalz, J Meyer-ter-Vehn
Computer Physics Communications 49 (3), 475-505, 1988
Radiation-pressure acceleration of ion beams driven by circularly polarized laser pulses
A Henig, S Steinke, M Schnürer, T Sokollik, R Hörlein, D Kiefer, D Jung, ...
Physical Review Letters 103 (24), 245003, 2009
Multi-MeV electron beam generation by direct laser acceleration in high-density plasma channels
C Gahn, GD Tsakiris, A Pukhov, J Meyer-ter-Vehn, G Pretzler, P Thirolf, ...
Physical Review Letters 83 (23), 4772, 1999
Influence of the laser prepulse on proton acceleration in thin-foil experiments
M Kaluza, J Schreiber, MIK Santala, GD Tsakiris, K Eidmann, ...
Physical review letters 93 (4), 045003, 2004
Hydrodynamic simulation of subpicosecond laser interaction with solid-density matter
K Eidmann, J Meyer-ter-Vehn, T Schlegel, S Hüller
Physical Review E 62 (1), 1202, 2000
Route to intense single attosecond pulses
GD Tsakiris, K Eidmann, J Meyer-ter-Vehn, F Krausz
New Journal of Physics 8 (1), 19, 2006
Energetic ions generated by laser pulses: A detailed study on target properties
M Roth, A Blazevic, M Geissel, T Schlegel, TE Cowan, M Allen, ...
Physical Review Special Topics-Accelerators and Beams 5 (6), 061301, 2002
Laser hole boring into overdense plasma and relativistic electron currents for fast ignition of ICF targets
A Pukhov, J Meyer-ter-Vehn
Physical review letters 79 (14), 2686, 1997
Design considerations for table-top, laser-based VUV and X-ray free electron lasers
F Grüner, S Becker, U Schramm, T Eichner, M Fuchs, R Weingartner, ...
Applied Physics B 86 (3), 431-435, 2007
Relativistic channeling of a picosecond laser pulse in a near-critical preformed plasma
M Borghesi, AJ MacKinnon, L Barringer, R Gaillard, LA Gizzi, C Meyer, ...
Physical review letters 78 (5), 879, 1997
On energy gain of fusion targets: the model of Kidder and Bodner improved
J Meyer-ter-Vehn
Nuclear Fusion 22 (4), 561, 1982
Neutron production by 200 mJ ultrashort laser pulses
G Pretzler, A Saemann, A Pukhov, D Rudolph, T Schätz, U Schramm, ...
Physical Review E 58 (1), 1165, 1998
Superradiant amplification of an ultrashort laser pulse in a plasma by a counterpropagating pump
G Shvets, NJ Fisch, A Pukhov, J Meyer-ter-Vehn
Physical review letters 81 (22), 4879, 1998
Collective stopping and ion heating in relativistic-electron-beam transport for fast ignition
M Honda, J Meyer-ter-Vehn, A Pukhov
Physical review letters 85 (10), 2128, 2000
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