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Approaching a burning plasma on the NIF
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Perturbation modifications by pre-magnetisation of inertial confinement fusion implosions
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Making inertial confinement fusion models more predictive
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Constraining preheat energy deposition in MagLIF experiments with multi-frame shadowgraphy
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Experimental study of energy transfer in double shell implosions
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Pushered single shell implosions for mix and radiation trapping studies using high-Z layers on National Ignition Facility
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Metrics for long wavelength asymmetries in inertial confinement fusion implosions on the National Ignition Facility
American Institute of Physics | 2014|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Capsule physics comparison of National Ignition Facility implosion designs using plastic, high density carbon, and beryllium ablators
American Institute of Physics | 2018|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Implosion of auto-magnetizing helical liners on the Z facility
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Laser-driven magnetized liner inertial fusion
American Institute of Physics | 2017|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Radiation hydrodynamics modeling of the highest compression inertial confinement fusion ignition experiment from the National Ignition Campaign
American Institute of Physics | 2015|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
The high velocity, high adiabat, “Bigfoot” campaign and tests of indirect-drive implosion scaling
American Institute of Physics | 2018|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
A hybrid-drive nonisobaric-ignition scheme for inertial confinement fusion
American Institute of Physics | 2016|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Integrated modeling of cryogenic layered highfoot experiments at the NIF
American Institute of Physics | 2016|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
The relationship between gas fill density and hohlraum drive performance at the National Ignition Facility
American Institute of Physics | 2017|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
The I-Raum: A new shaped hohlraum for improved inner beam propagation in indirectly-driven ICF implosions on the National Ignition Facility
Free accessAmerican Institute of Physics | 2018|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
High-resolution modeling of indirectly driven high-convergence layered inertial confinement fusion capsule implosions
American Institute of Physics | 2017|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Progress toward a self-consistent set of 1D ignition capsule metrics in ICF
Free accessAmerican Institute of Physics | 2018|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
Origins and effects of mix on magnetized liner inertial fusion target performance
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter -
A simulation-based model for understanding the time dependent x-ray drive asymmetries and error bars in indirectly driven implosions on the National Ignition Facility
American Institute of Physics | 2019|Keywords: Inertially Confined Plasmas, High Energy Density Plasma Science, Warm Dense Matter
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