Modeling crossed-beam energy transfer for inertial confinement fusion

Modeling crossed-beam energy transfer for inertial confinement fusion

We developed a numerical code that describes both the energy transfer occurring when two or more laser beams overlap in a weakly non-homogeneous plasma, and the beam energy losses associated with the electron-ion collisions. The numerical solutions are validated with both the exact analytical soluti...

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Veröffentlicht in:Physics of plasmas 2016-05, Vol.23 (5)
Hauptverfasser: Marion, D. J. Y., Debayle, A., Masson-Laborde, P.-E., Loiseau, P., Casanova, M.
Format: Artikel
Sprache:eng
Schlagworte:
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
ANALYTICAL SOLUTION
APPROXIMATIONS
Atomic collisions
BREMSSTRAHLUNG
COLLIDING BEAMS
COMPARATIVE EVALUATIONS
Computer simulation
COMPUTERIZED SIMULATION
ELECTRON-ION COLLISIONS
ELECTRONS
ENERGY LOSSES
ENERGY TRANSFER
GOLD
HOMOGENEOUS PLASMA
IMPLOSIONS
INERTIAL CONFINEMENT
Inertial confinement fusion
IONS
Laser beams
LASERS
Mathematical models
NUMERICAL SOLUTION
Oscillators
Particle in cell technique
Plasma physics
Plasmas (physics)
SOUND WAVES
Wave breaking
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Beschreibung
Zusammenfassung:We developed a numerical code that describes both the energy transfer occurring when two or more laser beams overlap in a weakly non-homogeneous plasma, and the beam energy losses associated with the electron-ion collisions. The numerical solutions are validated with both the exact analytical solutions in homogeneous plasmas, and with new approximate analytical solutions in non-homogeneous plasmas that include the aforementioned inverse bremsstrahlung effect. Comparisons with kinetic particle-in-cell simulations are satisfactory, provided the acoustic wave-breaking limit and the self-focusing regime are not reached. An application of the Cross-Beam Energy Transfer model is shown for a typical case of indirect-drive implosion in a gold hohlraum.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.4948489