Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Ion fast ignition; Laser driven ion acceleration; 52.38.Kd; 52.65.Ww; 52.57.Kk;
مقالات ISI انرژی همجوشی هسته ای (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: انرژی همجوشی هسته ای; Heavy-ion fusion; Ion beam; Accelerator; Inertial fusion energy; Beam line; Pulse compression
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Ultra-deep penetration; Reaction chamber; Shrapnel
Recent developments in IFE safety and tritium research and considerations for future nuclear fusion facilities
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Magnetic fusion energy; Safety; Tritium; Lithium; Fusion nuclear science;
Numerical and experimental studies of Electra's scalloped transmission foil cooling with small impinging jets
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Gas laser; Scalloped hibachi foil; Heat transfer enhancement; Impinging jets
Investigations of Electra KrF laser hibachi foil cooling with small obliquely impinging jets
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Gas laser; Hibachi cooling; Heat transfer enhancement; Impinging jets
LIFE hybrid reactor as reactor grade plutonium burner
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; TRISO fuel; FLIBE molten salt; National ignition facility; Reactor-grade plutonium; Fusion–fission (hybrid) reactors
Alternative schemes for the inertial fusion energy
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Direct drive ignition; Target design; Fast ignition; Shock ignition
Electrorheological Rayleigh–Taylor instability at the interface between a porous layer and thin shell with poorly conducting couple stress fluid
Keywords: انرژی همجوشی هسته ای; Electrorheological fluid; Couple stress; Inertial fusion energy; Laser radiation; Transverse electric field; Maximum growth rate
Conversion of plasma energy into electrical pulse by magnetic flux compression
Keywords: انرژی همجوشی هسته ای; Magnetic flux compression; Direct energy conversion; Inertial fusion energy; IFE; Expanding plasma; Fusion; MHD
Advances in inertial confinement fusion at the National Ignition Facility (NIF)
Keywords: انرژی همجوشی هسته ای; National Ignition Facility; National Ignition Campaign; Inertial fusion energy; Inertial confinement fusion; High-energy-density science; Laser Inertial Fusion Energy
High-energy density physics experiments with intense heavy ion beams
Keywords: انرژی همجوشی هسته ای; Inertial fusion energy; Ion beam; Diagnostics; Warm dense matter; High energy density physics
Preparing for ignition experiments on the National Ignition Facility
Keywords: انرژی همجوشی هسته ای; Laser; Inertial confinement fusion; Inertial fusion energy
Simulation of thermal response and ion deposition in the HAPL target chamber 1 mm tungsten armor layer using the improved BUCKY code
Keywords: انرژی همجوشی هسته ای; Tungsten armor; Radiation hydrodynamics; Inertial fusion energy; Ion implantation; Armor thermal response
Trajectory adjusting system using a magnetic lens for a Pb-coated superconducting IFE target
Keywords: انرژی همجوشی هسته ای; Magnetic lens; Superconducting target; Target injection; Trajectory adjusting; Inertial fusion energy
An embedded boundary method for viscous, conducting compressible flow
Keywords: انرژی همجوشی هسته ای; Embedded boundary; Godunov; Convergence analysis; Cartesian grid; Redistribution; Inertial fusion energy
Experimental study of space-charge waves in heavy ion beams
Keywords: انرژی همجوشی هسته ای; 52.59.Sa; 41.75.Ak; Inertial fusion energy; Heavy ion beam; Space charge; Space-charge wave;
Vapor condensation study for HIF liquid chambers
Keywords: انرژی همجوشی هسته ای; 52.58.H; 28.52; 68.10.J; 81.70; 64.70.F; Vapor condensation; Chamber clearing; Molten salt; Inertial fusion energy;
Heavy-ion target physics and design in the USA
Keywords: انرژی همجوشی هسته ای; 52.57.Bc; 52.57.Fg; 52.58.Hm; Inertial fusion energy; Heavy ion fusion; Target design;
The Laser Mégajoule (LMJ) Project dedicated to inertial confinement fusion: Development and construction status
Keywords: انرژی همجوشی هسته ای; Quadruplet; Laser Megajoule; Inertial fusion energy;
Experimental study of the transport limits of intense heavy ion beams in the HCX
Keywords: انرژی همجوشی هسته ای; 52.58.Hm; 52.59.Sa; 52.65.Rr; 41.85.Ne; 41.75.Ak; 52.70.Nc; 41.85.Lc; Inertial fusion energy; Heavy-ion; Linear accelerator; Space-charge; Phase-space; Electrostatic transport; Magnetic transport; Quadrupole;
Diagnostics for intense heavy-ion beams in the HIF-VNL
Keywords: انرژی همجوشی هسته ای; 52.59.Sa; 52.70Nc; 52.70Kz; 29.30.Aj; 41.75.Ak; 41.85.Qg; Inertial fusion energy; Heavy-ion beam; Linear accelerator; Space-charge; Phase space; Diagnostics;
Development of superconducting magnet systems for HIF experiments
Keywords: انرژی همجوشی هسته ای; 85.25.Ly; 41.85.Lc; 52.58.Hm; Superconducting magnet; Magnetic transport; Quadrupole; Heavy ion accelerator; Inertial fusion energy;
Options for integrated beam experiments for inertial fusion energy and high-energy density physics research
Keywords: انرژی همجوشی هسته ای; 52.58.Hm; 52.59.Fn; 52.59.Hq; 52.59.Sa; 41.75.Ak; 01.52.+r; Heavy ion fusion; Induction accelerator; Inertial fusion energy; High-energy-density-physics;
A final focus model for heavy-ion fusion driver system codes
Keywords: انرژی همجوشی هسته ای; 52.75.Di; 28.52.Av; Inertial fusion energy; Heavy-ion fusion; Space-charge; Emittance growth; Final focus; Beam neutralization; Chromatic aberrations; Geometric aberrations;