Keywords: ICF capsule support; Magnetic levitation; Symmetry; 52.57.Fg; 74.70.Ad; 74.78.-W;
مقالات ISI (ترجمه نشده)
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Keywords: Inertial confinement fusion ablator; Aluminum ablator; Aluminum capsule; X-ray mass ablation rate; Alternate ablator; 52.57.-z; 52.57.Fg; 52.57.Bc;
Keywords: Mode coupling; Low-mode drive asymmetry; Intermediate-mode capsule roughness; Ignition capsule implosion; 52.57.-z; 52.57.Fg; 47.20.Ma;
Keywords: Boron laser fusion; Plasma-block ignition; ultrahigh acceleration; Kilotesla field trapping; Avalanche reaction; Power reactor; 52.38.-r; 52.57.-z; 52.57.Fg;
Keywords: Inertial fusion; Direct drive; Laser interactions; Hydrodynamics; Omega; National ignition facility; 52.5; 52.57.Fg; 52.38; 52.38.Bv; 52.38.Mf;
Keywords: Heavy ion inertial fusion; Heavy ion fusion reactor system; Fusion fuel target implosion; Implosion dynamics; Heavy ion beam transport; Rayleigh-Taylor instability stabilization; Robust fusion system52.58.Hm; 52.50.Gj; 52.57.Fg; 52.40.Mj; 52.30.-q; 52.40.
P2 asymmetry of Au's M-band flux and its smoothing effect due to high-Z ablator dopants
Keywords: Inertial confinement fusion; Implosion; Low-mode distortion; M-band flux asymmetry; High-Z dopant; 52.57.-z; 52.57.Fg; 47.20.Ma;
A method to simulate linear stability of impulsively accelerated density interfaces in ideal-MHD and gas dynamics
Keywords: 02.60.Cb; 04.30.Nk; 47.20.Cq; 52.57.Fg; 47.11.DfNumerical linear stability; Upwind method; Richtmyer–Meshkov
Direct–indirect mixed implosion mode in heavy ion inertial fusion
Keywords: 52.58.Hm; 52.57.Fg; 52.40.Mj; 29.27.EgInertial confinement fusion; Heavy ion beam; Radiation transport; Implosion non-uniformity; Pellet gain
Robust heavy-ion-beam illumination in direct-driven heavy-ion inertial fusion
Keywords: 52.58.Hm; 52.40.Mj; 52.57.Fg; 29.27.EgHeavy ion fusion; Beam illumination; Stopping power
Simulations of X-ray emission from Omega fill tube experiments
Keywords: 52.57.Fg; 52.57.âz; Inertial confinement fusion; Hydrodynamic Instability;
Overview of Russian heavy-ion inertial fusion energy program
Keywords: 52.58.Hm; 28.52.Av; 52.57.Fg; 34.50.Bw; 52.40.Mj; Inertial fusion; Dense plasma; Stopping power; Powerful accelerator; Cylindrical target; Reactor chamber;
Nonlinear Rayleigh-Taylor growth in converging geometry
Keywords: 52.57.Fg; 47.20.ky; 47.40.-x; Rayleigh-Taylor instability; Nonlinear; Compressible flow;
Fluid and kinetic simulation of inertial confinement fusion plasmas
Keywords: 52.57.-z; 52.57.Kk; 52.65.-y; 52.57.Fg; 52.38.-r; Inertial confinement fusion (ICF); Lagrangian fluid codes; Rayleigh-Taylor instability; Laser-plasma interaction; PIC codes; Fast ignitor; Weibel instability;
Heavy-ion target physics and design in the USA
Keywords: 52.57.Bc; 52.57.Fg; 52.58.Hm; Inertial fusion energy; Heavy ion fusion; Target design;
Models of gain curves for fast ignition
Keywords: 52.57.Bc; 52.57.Fg; 52.57.Kk; 52.58.Hm; Fast ignition; Heavy ion fusion; Laser; Direct drive; Optimization; Gain curve;
Power plant conceptual design for fast ignition heavy-ion fusion
Keywords: 52.58.Hm; 28.52.Av; 52.57.Fg; High-energy ion acceleration; Cylindrical target; Thin-liquid first wall; Reactor chamber response; Energy conversion system;