We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of inertial fusion targets. The analysis of the underlying physical model enables us to develop efficient numerical methods to simulate the creation, transport and collisional relaxation of fusion reaction products (alpha-particles) at a kinetic level. A two-energy-scale approach leads to a self-consistent modeling of the coupling between suprathermal alpha-particles and the thermal bulk of the imploding plasma. This method provides an accurate numerical treatment of energy deposition and transport processes involving suprathermal particles. The numerical tools presented here are validated against known analytical results. This enables us to inves...
The ignition of a laser fusion target is essentially due to the energy that the α-particles yielded ...
In burning plasma experiments, the very energetic alpha (alpha) particles resulting from a deuterium...
By reaching the first wall of a fusion reactor, charged plasma particles, electrons and ions are rec...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In this Article, we study the hydrodynamics and burn of the thermonuclear fuel in inertial confineme...
The alpha-particle energy deposition mechanism modifies the ignition conditions of the thermonuclear...
Thesis (S.M. and S.B.)--Massachusetts Institute of Technology, Dept. of Nuclear Science and Engineer...
We investigate the effects of non-equilibrium particle distributions resulting from rapid deuterium-...
An important issue in the design of inertial confinement fusion (ICF) implosion experiments is calcu...
At the birth of the hot point in an Inertial Confinement Fusion experiment, the plasma at the center...
The significance and nature of ion kinetic effects in D[subscript 3]He-filled, shock-driven inertial...
A numerical code solving the ion Vlasov-Fokker-Planck kinetic equation is used to compute the hydrod...
Much is known about the behavior of energetic ions in tokamak devices but much remains to be underst...
During the burn of DT (Deuterium-Tritium) fuel in ICF (Inertial Confinement Fusion) target, the ener...
The ignition of a laser fusion target is essentially due to the energy that the α-particles yielded ...
In burning plasma experiments, the very energetic alpha (alpha) particles resulting from a deuterium...
By reaching the first wall of a fusion reactor, charged plasma particles, electrons and ions are rec...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In this Article, we study the hydrodynamics and burn of the thermonuclear fuel in inertial confineme...
The alpha-particle energy deposition mechanism modifies the ignition conditions of the thermonuclear...
Thesis (S.M. and S.B.)--Massachusetts Institute of Technology, Dept. of Nuclear Science and Engineer...
We investigate the effects of non-equilibrium particle distributions resulting from rapid deuterium-...
An important issue in the design of inertial confinement fusion (ICF) implosion experiments is calcu...
At the birth of the hot point in an Inertial Confinement Fusion experiment, the plasma at the center...
The significance and nature of ion kinetic effects in D[subscript 3]He-filled, shock-driven inertial...
A numerical code solving the ion Vlasov-Fokker-Planck kinetic equation is used to compute the hydrod...
Much is known about the behavior of energetic ions in tokamak devices but much remains to be underst...
During the burn of DT (Deuterium-Tritium) fuel in ICF (Inertial Confinement Fusion) target, the ener...
The ignition of a laser fusion target is essentially due to the energy that the α-particles yielded ...
In burning plasma experiments, the very energetic alpha (alpha) particles resulting from a deuterium...
By reaching the first wall of a fusion reactor, charged plasma particles, electrons and ions are rec...