We present a simple method to incorporate nonlocal effects on the Nernst advection of magnetic fields down steep temperature gradients, and demonstrate its effectiveness in a number of inertial fusion scenarios. This is based on assuming that the relationship between the Nernst velocity and the heat flow velocity is unaffected by nonlocality. The validity of this assumption is confirmed over a wide range of plasma conditions by comparing Vlasov-Fokker-Planck and flux-limited classical transport simulations. Additionally, we observe that the Righi-Leduc heat flow is more severely affected by nonlocality due to its dependence on high velocity moments of the electron distribution function, but are unable to suggest a reliable method of account...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
Experiments where a laser-generated proton beam is used to probe the megagauss strength self-generat...
Irradiation nonuniformity is a major source of degrading target performance at ongoing spherical- di...
We present a simple method to incorporate nonlocal effects on the Nernst advection of magnetic field...
We present a simple method to incorporate nonlocal effects on the Nernst advection of magnetic field...
Trying to accurately predict results of fusion experiments by means of computer simulations has long...
We present nanosecond time-scale Vlasov-Fokker-Planck-Maxwell modeling of magnetized plasma transpor...
Three models for nonlocal electron thermal transport are here compared against Vlasov-Fokker-Planck ...
International audienceIn order to improve the presently used ad hoc flux limiter treatment of parall...
Magnetic fields, spontaneously generated around laser heating nonuniformities, have been found to in...
We present kinetic two-dimensional Vlasov-Fokker-Planck simulations, including both self-consistent ...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
ABSTRACT Magneto-inertial fusion (MIF) approaches, such as the MagLIF experiment, use magnetic field...
In some regions of a laser driven inertial fusion target, the electron mean-free path can become com...
Experiments where a laser-generated proton beam is used to probe the megagauss strength self-generat...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
Experiments where a laser-generated proton beam is used to probe the megagauss strength self-generat...
Irradiation nonuniformity is a major source of degrading target performance at ongoing spherical- di...
We present a simple method to incorporate nonlocal effects on the Nernst advection of magnetic field...
We present a simple method to incorporate nonlocal effects on the Nernst advection of magnetic field...
Trying to accurately predict results of fusion experiments by means of computer simulations has long...
We present nanosecond time-scale Vlasov-Fokker-Planck-Maxwell modeling of magnetized plasma transpor...
Three models for nonlocal electron thermal transport are here compared against Vlasov-Fokker-Planck ...
International audienceIn order to improve the presently used ad hoc flux limiter treatment of parall...
Magnetic fields, spontaneously generated around laser heating nonuniformities, have been found to in...
We present kinetic two-dimensional Vlasov-Fokker-Planck simulations, including both self-consistent ...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
ABSTRACT Magneto-inertial fusion (MIF) approaches, such as the MagLIF experiment, use magnetic field...
In some regions of a laser driven inertial fusion target, the electron mean-free path can become com...
Experiments where a laser-generated proton beam is used to probe the megagauss strength self-generat...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
Experiments where a laser-generated proton beam is used to probe the megagauss strength self-generat...
Irradiation nonuniformity is a major source of degrading target performance at ongoing spherical- di...