The application of magnetic fields in inertial fusion experiments has led to renewed interest in fully understanding magnetised transport in laser-plasma regimes. This motivated the development of a new laser magnetohydrodynamic code PARAMAGNET, written to support investigations into classical magnetised transport phenomena and laser propagation in a plasma. This code was used to simulate laser-underdense plasma interactions such as the pre-heat stage of magneto-inertial fusion. Alongside these simulations, this thesis will present analytic focusing and filamentation models derived from magnetohydrodynamics extended with classical magnetised transport coefficients. These results showed the focal length and filamentation growth leng...
The work presented in this thesis investigates energy transport in laser irradiated solid targets co...
We present a model of nonlocal transport for multidimensional radiation magneto hydrodynamic codes. ...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
The first Vlasov-Fokker-Planck simulations of nanosecond laser-plasma interactions – including the ...
In this paper we study the influence of the magnetised thermal conductivity on the propagation of a ...
The applicability of classical (Braginskii) transport theory [1] to laser plasma interactions is cru...
The propagation of a nanosecond IR laser pulse through an under-dense (0.01 — 0.1ncr) magnetised las...
In the framework of the inertial confinement fusion, a pellet filled with the deuterium-tritium fuel...
Classical transport theory predicts strong coupling between thermal transport and magnetic field dy...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
The effects of magnetic fields on long-pulse (nanosecond) laser-plasma interactions have been a subj...
Classical transport theory predicts strong coupling between thermal transport and magnetic field dyn...
Magnetic fields, spontaneously generated around laser heating nonuniformities, have been found to in...
Inertial confinement fusion experiments using laser beams have reported the emission of hot electron...
Irradiation nonuniformity is a major source of degrading target performance at ongoing spherical- di...
The work presented in this thesis investigates energy transport in laser irradiated solid targets co...
We present a model of nonlocal transport for multidimensional radiation magneto hydrodynamic codes. ...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...
The first Vlasov-Fokker-Planck simulations of nanosecond laser-plasma interactions – including the ...
In this paper we study the influence of the magnetised thermal conductivity on the propagation of a ...
The applicability of classical (Braginskii) transport theory [1] to laser plasma interactions is cru...
The propagation of a nanosecond IR laser pulse through an under-dense (0.01 — 0.1ncr) magnetised las...
In the framework of the inertial confinement fusion, a pellet filled with the deuterium-tritium fuel...
Classical transport theory predicts strong coupling between thermal transport and magnetic field dy...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
The effects of magnetic fields on long-pulse (nanosecond) laser-plasma interactions have been a subj...
Classical transport theory predicts strong coupling between thermal transport and magnetic field dyn...
Magnetic fields, spontaneously generated around laser heating nonuniformities, have been found to in...
Inertial confinement fusion experiments using laser beams have reported the emission of hot electron...
Irradiation nonuniformity is a major source of degrading target performance at ongoing spherical- di...
The work presented in this thesis investigates energy transport in laser irradiated solid targets co...
We present a model of nonlocal transport for multidimensional radiation magneto hydrodynamic codes. ...
Extended-magnetohydrodynamics (MHD) transports magnetic flux and electron energy in high-energy-dens...