Simulation of laser-driven, ablated plasma flows in collisionless shock experiments on OMEGA and the NIF

Simulation of laser-driven, ablated plasma flows in collisionless shock experiments on OMEGA and the NIF

Experiments investigating the physics of interpenetrating, collisionless, ablated plasma flows have become an important area of research in the high-energy-density field. In order to evaluate the feasibility of designing experiments that will generate a collisionless shock mediated by the Weibel ins...

Volledige beschrijving

Bibliografische gegevens
Hoofdauteurs:	Grosskopf, M, Drake, R, Kuranz, C, Rutter, E, Ross, J, Kugland, N, Plechaty, C, Remington, B, Spitkovsky, A, Gargate, L, Gregori, G, Bell, A, Murphy, C, Meinecke, J, Reville, B, Sakawa, Y, Kuramitsu, Y, Takabe, H, Froula, D, Fiksel, G, Miniati, F, Koenig, M, Ravasio, A, Liang, E, Fu, W
Formaat:	Journal article
Taal:	English
Gepubliceerd in:	2013

Gelijkaardige items

Laboratory astrophysical collisionless shock experiments on Omega and NIF
door: Park, H, et al.
Gepubliceerd in: (2016)

Studying astrophysical collisionless shocks with counterstreaming plasmas from high power lasers
door: Park, H, et al.
Gepubliceerd in: (2012)

Visualizing electromagnetic fields in laser-produced counter-streaming plasma experiments for collisionless shock laboratory astrophysics
door: Kugland, N, et al.
Gepubliceerd in: (2013)

Characterizing counter-streaming interpenetrating plasmas relevant to astrophysical collisionless shocks
door: Ross, J, et al.
Gepubliceerd in: (2012)

Self-organized electromagnetic field structures in laser-produced counter-streaming plasmas
door: Kugland, N, et al.
Gepubliceerd in: (2012)

Self-organized electromagnetic field structures in laser-produced counter-streaming plasmas
door: Kugland, N, et al.
Gepubliceerd in: (2012)

Transition from collisional to collisionless regimes in interpenetrating plasma flows on the National Ignition Facility
door: Ross, J, et al.
Gepubliceerd in: (2017)

Electron acceleration in laboratory-produced turbulent collisionless shocks
door: Swadling, GF, et al.
Gepubliceerd in: (2020)

Formation of counterstreaming plasmas for collisionless shock experiment
door: Ide T., et al.
Gepubliceerd in: (2013-11-01)

High-power laser experiments to study collisionless shock generation
door: Sakawa, Y, et al.
Gepubliceerd in: (2013)

Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility
door: Ross, J. S., et al.
Gepubliceerd in: (2017)

Proton imaging of an electrostatic field structure formed in laser-produced counter-streaming plasmas
door: Morita, T, et al.
Gepubliceerd in: (2016)

Return Currents in Collisionless Shocks
door: Siddhartha Gupta, et al.
Gepubliceerd in: (2024-01-01)

High Mach-number collisionless shock driven by a laser with an external magnetic field
door: Morita, T, et al.
Gepubliceerd in: (2013)

High Mach-number collisionless shock driven by a laser with an external magnetic field
door: Morita T., et al.
Gepubliceerd in: (2013-11-01)

Long-term Evolution of Relativistic Unmagnetized Collisionless Shocks
door: Daniel Grošelj, et al.
Gepubliceerd in: (2024-01-01)

Blue and green light? Wavelength scaling for NIF
door: Kruer, W, et al.
Gepubliceerd in: (2004)

Maser radiation from collisionless shocks: application to astrophysical jets
door: Speirs, D, et al.
Gepubliceerd in: (2019)

Formation of collisionless shocks driven by strongly magnetized relativistic electrons in the laboratory
door: P. T. Campbell, et al.
Gepubliceerd in: (2024-01-01)

Developed turbulence and nonlinear amplification of magnetic fields in laboratory and astrophysical plasmas.
door: Meinecke, J, et al.
Gepubliceerd in: (2015)

Under and over-adiabatic electrons through a perpendicular collisionless shock: theory versus simulations
door: P. Savoini, et al.
Gepubliceerd in: (2005-12-01)

The generation and amplification of intergalactic magnetic fields in analogue laboratory experiments with high power lasers
door: Gregori, G, et al.
Gepubliceerd in: (2015)

Axion-driven cosmic magnetogenesis prior to the QCD crossover
door: Miniati, F, et al.
Gepubliceerd in: (2018)

DESIGN CONSIDERATIONS FOR UNMAGNETIZED COLLISIONLESS-SHOCK MEASUREMENTS IN HOMOLOGOUS FLOWS
door: Drake, R, et al.
Gepubliceerd in: (2012)

Electron Injection via Modified Diffusive Shock Acceleration in High-Mach-number Collisionless Shocks
door: A. Grassi, et al.
Gepubliceerd in: (2023-01-01)

Turbulent amplification of magnetic fields in laboratory laser-produced shock waves
door: Meinecke, J, et al.
Gepubliceerd in: (2014)

Turbulent amplification of magnetic fields in laboratory laser-produced shock waves
door: Meinecke, J, et al.
Gepubliceerd in: (2014)

Defect-induced mix experiment for NIF
door: Schmitt M.J., et al.
Gepubliceerd in: (2013-11-01)

Generation of scaled protogalactic seed magnetic fields in laser-produced shock waves
door: Gregori, G, et al.
Gepubliceerd in: (2012)

MAGNETIC FIELD GENERATION BY BIERMANN BATTERY AND WEIBEL INSTABILITY IN LABORATORY SHOCK WAVES
door: Gregori, G, et al.
Gepubliceerd in: (2013)

NIF capsule performance modeling
door: Weber S., et al.
Gepubliceerd in: (2013-11-01)

Collisionless mirror mode trapping
door: R. A. Treumann, et al.
Gepubliceerd in: (2000-01-01)

‘Nif’ and ‘hup’ genes
door: R Valentine
Gepubliceerd in: (1982-08-01)

Shock waves in collisionless plasma/
door: 190821 Tidman, Derek A., et al.
Gepubliceerd in: (1971)

Widespread Distribution and Expression of Gamma A (UMB), an Uncultured, Diazotrophic, γ-Proteobacterial nifH Phylotype.
door: Rebecca Langlois, et al.
Gepubliceerd in: (2015-01-01)

Fluidization of collisionless plasma turbulence
door: Meyrand, R, et al.
Gepubliceerd in: (2019)

Condensate Formation in Collisionless Plasma
door: R. A. Treumann, et al.
Gepubliceerd in: (2021-07-01)

Thermal disequilibration of ions and electrons by collisionless plasma turbulence
door: Kawazura, Y, et al.
Gepubliceerd in: (2018)

Spontaneous magnetization of collisionless plasma
door: Zhou, Muni, et al.
Gepubliceerd in: (2023)

Magneto-optic probe measurements in low density-supersonic jets
door: Oliver, M, et al.
Gepubliceerd in: (2017)