Keywords: 52.40 مگابایت; Molecules; Stopping power; Coulomb explosion; Vicinage effect; Laser; 34.50.Bw; 52.40.Mj; 61.85.+p; 34.50.Dy;
مقالات ISI 52.40 مگابایت (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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.
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: 52.40 مگابایت; 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.
Warm dense matter research at HIAF
Keywords: 52.40 مگابایت; Warm dense matter; Intense heavy ion beams; HIAF; Electron radiography; 34.50.Bw; 94.20.Fg; 52.40.Mj; 87.59.B-; 41.75.Lx;
Experimental apparatus for the measurement of non-linear stopping of low-energy heavy ions
Keywords: 52.40 مگابایت; 29.40.Wk; 34.50.Bw; 52.27.Gr; 52.40.Mj; 52.58.HmInertial fusion; Heavy ion; Stopping power; Non-ideal plasma; Differential pumping; Charged-particle detector
Effects of target electron collisions on energy loss straggling in plasmas of all degeneracies
Keywords: 52.40 مگابایت; 52.40.Mj; 52.25.Mq; 52.20.FsEnergy loss; Straggling; Electron collisions; Plasma degeneracy; Fast ignition
Can charge drag explain the Pioneer anomaly?
Keywords: 52.40 مگابایت; 34.50.Bw; 52.40.Mj; 94.05.Jq; 96.50.Dj; Pioneer anomaly; Interplanetary dust; Charge drag;
Interaction experiments using thin-foil-discharge warm-dense plasma
Keywords: 52.40 مگابایت; 52.58.Hm; 52.40.Mj; 34.50.BwStopping power; Heavy-ion beam; Discharge plasma; Warm dense matter
Influence of the gap-target configuration on the measured energy loss of C-ions in Ar-gas and -plasma
Keywords: 52.40 مگابایت; 52.27.Gr; 52.40.--w; 52.40.Mj; 52.50.LpNon-ideal plasma; Shockwave-produced plasma; Ion–beam interaction; Stopping power
Direct–indirect mixed implosion mode in heavy ion inertial fusion
Keywords: 52.40 مگابایت; 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: 52.40 مگابایت; 52.58.Hm; 52.40.Mj; 52.57.Fg; 29.27.EgHeavy ion fusion; Beam illumination; Stopping power
High-energy-density physics experiments with intense heavy ion beams
Keywords: 52.40 مگابایت; 52.58.Hm; 64.30.+t; 52.40.Mj; 52.25.Kn; 52.27.Gr; 52.50.Gj; 52.70.−mHigh energy density physics; Warm dense matter; Intense heavy ion beams; Equation of state
Overview of Russian heavy-ion inertial fusion energy program
Keywords: 52.40 مگابایت; 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;
Pierce electrodes for a multigap accelerating system
Keywords: 52.40 مگابایت; 07.77.Ka; 29.25.Ni; 52.40.Mj; 52.70.Nc; 52.25.Ya; 52.25.TxNeutral beam; Plasma diagnostics; Pierce electrodes
Theory and simulation of warm dense matter targets
Keywords: 52.40 مگابایت; 52.40.Mj; 64.60Warm dense matter; Hydrodynamics; Equation of state; Beam–plasma interactions
Dynamics of fast molecular ions in solids and plasmas: A review of recent theoretical developments
Keywords: 52.40 مگابایت; 79.20.Rf; 61.80.−x; 61.48+c; 61.85.+p; 52.40.Mj; 36.40.−c; 34.50.Bw; 34.50.DyMolecules; Fullerenes; Stopping power; Coulomb explosion; Charge state; Thin foils; Fusion plasma; Carbon nanotube; Surface scattering; Electron emission
Growth of vertically aligned single crystal ZnO nanotubes by plasma-molecular beam epitaxy
Keywords: 52.40 مگابایت; 52.40.Mj; 81.05.Dz; 81.15.Hi; 61.46.+wA. ZnO nanotubes; A. O-plasma; B. Plasma-molecular beam epitaxy; D. Polar and non-polar planes
Study of the gas rarefaction phenomenon in a magnetron sputtering system
Keywords: 52.40 مگابایت; 52.25.Ya; 52.25.Fi; 52.40.Mj; 52.50.GjMagnetron sputtering; Gas heating; Gas rarefaction; Keller–Simmons formula
Quasi-bound states of antihydrogen
Keywords: 52.40 مگابایت; 52.27.Jt; 52.20.Dq; 52.20.Fs; 52.65.Cc; 52.40.Mj; Antihydrogen; Quasi-bound states; Magnetized positron plasma; Antiprotons;
Studying and applying channeling at extremely high bunch charges
Keywords: 52.40 مگابایت; 52.38.Hb; 52.40.Mj; 61.80.Cb; 61.85.+p;
Final beam transport in HIF
Keywords: 52.40 مگابایت; 52.58.Hm; 52.40.Mj; 41.75.Ak; 41.85.Ja; Heavy ion beam transport; Charge neutralization; Ambipolar field; Beam divergence;
Simulations of neutralized final focus
Keywords: 52.40 مگابایت; 52.35.Qz; 52.40.Mj; 52.59.Sa; 52.65.Ww; Heavy ion fusion; Space charge; Neutralization; Final focus; Transport;
Overview of US heavy-ion fusion progress and plans
Keywords: 52.40 مگابایت; 41.75.Ak; 52.40.Mj; 29.27.âa;
Stopping of low-energy highly charged ions in dense plasmas
Keywords: 52.40 مگابایت; 34.50.Bw; 52.27.Gr; 52.40.Mj; 52.58.Hm; 52.65.Yy; Inertial fusion; Heavy ion; Stopping power; Nonideal plasma; Charge exchange; Numerical simulation;
Studies of heavy ion-induced high-energy density states in matter at the GSI Darmstadt SIS-18 and future FAIR facility
Keywords: 52.40 مگابایت; 51.30.+i; 52.40.Mj; 52.50.Lp; Intense heavy ion beams; High-energy density matter; Equation-of-state; Strongly coupled plasmas; Planetary science;
Neutralized transport experiment
Keywords: 52.40 مگابایت; 52.59.Bi,Fn; 29.27.âa; 52.40.Mj; 41.75.Fr,Ht; 29.27.âa; Beam transport; Neutralization; Plasma; Diagnostic;