Table of Contents

Asymmetric Supernovae: Yes, Rotation and Magnetic Fields are Important.- Progress Toward the Study of Laboratory Scale, Astrophysically Relevant, Turbulent Plasmas.- Effects of Initial Conditions on Compressible Mixing in Supernova-Relevant Laboratory Experiments.- Laboratory Astrophysics Experiments for Simulation Code Validation: A Case Study.- How Did Cassiopeia A Explode? A Chandra VLP.- Studies of Laser-Driven Radiative Blast Waves.- Radiative Shocks in Astrophysics and the Laboratory.- Laboratory Simulations of Supernova Shockwave Propagation.- Radiative Shock Experiments at LULI.- Analytical Study of Supernova Remnant Non-Stationary Expansions.- Hypernovae and Gamma-Ray Bursts.- Radiation Hydrodynamics in Supernovae.- Experiment on Collisionless Plasma Interaction with Applications to Supernova Remnant Physics.- Laboratory Experiments of Stellar Jets from the Perspective of an Observer.- A Hed Laboratory Astrophysics Testbed Comes of Age: Jet Deflection via Cross Winds.- Relativistic Jets from Accretion Disks.- Recent Experimental Results and Modelling of High-Mach-Number Jets and the Transition to Turbulence.- Hydrogen EOS at Megabar Pressures and the Search for Jupiter’s Core.- Astrophysical Implications of the Recent Shocked Deuterium Experiments.- Deuterium Hugoniot up to 120 GPa (1.2 Mbar).- Modeling X-Ray Photoionized Plasmas Produced at the Sandia Z-Facility.- Radiation Properties of High-Energy Astrophysical Plasmas.- Preliminary Results from an Astrophysically Relevant Radiation Transfer Experiment.- X-Ray Line Transfer in Plasmas with Large Velocity Gradients.- Eagle Nebula Pillars: From Models to Observations.- Two Models of Magnetic Support for Photoevaporated Molecular Clouds.- Shock Propagation Through Multiphase Media.- Hydrodynamic Instability of Ionization Front in HII Regions: From Linear to Nonlinear Evolution.- Simulating Astrophysical Jets in Laboratory Experiments.- Particle Acceleration in Relativistic Magnetized Plasmas.- Magnetic Reconnection, Turbulence, and Collisionless Shock.- Direct-Drive Inertial Confinement Fusion Implosions on Omega.- Accessing High Pressure States Relevant to Core Conditions in the Giant Planets.- Formation of Working Surfaces in Radiatively Cooled Laboratory Jets.- Boltzmann Equilibrium of Endothermic Heavy Nuclear Synthesis in the Universe and a Quark Relation to the Magic Numbers.- Richtmyer-Meshkov Experiments on the Omega Laser.- Molecular Clouds: Observation to Experiment.- Preheat Issues in Hydrodynamic Hedla Experiments.- Zeus-2D Simulations of Laser-Driven Radiative Shock Experiments.- Modeling Magnetic Tower Jets in the Laboratory.- Tailored Blast Wave Production Pertaining to Supernova Remnants.- A Neutron Star Atmosphere in the Laboratory with Petawatt Lasers.- Laboratory Simulation of Magnetospheric Plasma Shocks.- Studying Hydrodynamic Instability Using Shock-Tube Experiments.- Novel Diagnostic of Shock Fronts in Low-Z Dense Plasmas.- Evolution and Fragmentation of Wide-Angle Wind Driven Molecular Outflows.- X-Ray Line and Recombination Emission in the Afterglow of GRB.- Richtmyer-Meshkov Instability Reshock Experiments Using Laser-Driven Double-Cylinder Implosions.- Density and Temperature Measurements on Laser Generated Radiative Shocks.- Linear Analysis of Axial Sheared Flow in Astrophysical Jets.- Validating the Flash Code: Vortex-Dominated Flows.- Electron-Positron Plasmas Created By Ultra-Intense Laser Pulses Interacting With Solid Targets.- Numerical Treatment of Radiative Transfer.- 3D Simulations of Rayleigh-Taylor Instability Using “Vulcan/3D”.- Hybrid Simulation of Collisionless Shock Formation in Support of Laboratory Experiments at UNR.- Virtual MHD Jets on Grids.- Non-Linear Dynamics of the Richtmyer-Meshkov Instability in Supernovae.- Lower Hybrid Wave Electron Heating in the Fast Solar Wind.- Interferometric Measurements of the Interaction of Two Plasmas in a Transverse Magnetic Field.- Laboratory Simulations of Bow Shocks and Magnetospheres.