n a Fermi-degenerate plasma, the rate of electron physical processes is much reduced from the classical prediction, possibly enabling new regimes for controlled nuclear fusion, including the hot-ion mode, a regime in which the ion temperature exceeds the electron temperature. Previous calculations of these processes in dense plasmas are now corrected for partial degeneracy and relativistic effects, leading to an expanded regime of self-sustained fusion
This article reports a study of a cold target with a high Fermi energy in light of recent research t...
In a Fermi-degenerate plasma, the electronic stopping of a slow ion is smaller than that given by th...
Laser-driven fusion validated with burning plasma. [Figure not available: see fulltext.
a degenerate plasma, the rates of electron processes are much smaller than the classical model would...
In this work we provide the first explanation for observations made in 1997 on the Joint European To...
We study nuclear fusion processes in a deuteron plasma under a combination of conditions such that, ...
We consider fusion processes initiated by the rapid adiabatic compression by a piston of a deuterium...
We recast the atomic processes in a warm, dense plasma using Fermi-Dirac statistics and compare them...
Fusion, the process that produces thermonuclear reactions in the sun, may someday be a solution to t...
Ignition criteria and fusion power density are calculated for catalyzed-D and D- 3He plasmas for hot...
We consider fusion processes initiated by the rapid adiabatic compression by a piston of a deuterium...
Plasmas for thermonuclear fusion contain a highly non-thermal population of fast ions which may carr...
We argue that the Maxwellian approximation can essentially underestimate the rates of some nuclear r...
Contains report on one research project.U.S. Atomic Energy Commission (Contract AT(30-1)-3980
AbstractIn 1989, when Fleischmann, Pons and Hawkins (FP), claimed they had created room temperature,...
This article reports a study of a cold target with a high Fermi energy in light of recent research t...
In a Fermi-degenerate plasma, the electronic stopping of a slow ion is smaller than that given by th...
Laser-driven fusion validated with burning plasma. [Figure not available: see fulltext.
a degenerate plasma, the rates of electron processes are much smaller than the classical model would...
In this work we provide the first explanation for observations made in 1997 on the Joint European To...
We study nuclear fusion processes in a deuteron plasma under a combination of conditions such that, ...
We consider fusion processes initiated by the rapid adiabatic compression by a piston of a deuterium...
We recast the atomic processes in a warm, dense plasma using Fermi-Dirac statistics and compare them...
Fusion, the process that produces thermonuclear reactions in the sun, may someday be a solution to t...
Ignition criteria and fusion power density are calculated for catalyzed-D and D- 3He plasmas for hot...
We consider fusion processes initiated by the rapid adiabatic compression by a piston of a deuterium...
Plasmas for thermonuclear fusion contain a highly non-thermal population of fast ions which may carr...
We argue that the Maxwellian approximation can essentially underestimate the rates of some nuclear r...
Contains report on one research project.U.S. Atomic Energy Commission (Contract AT(30-1)-3980
AbstractIn 1989, when Fleischmann, Pons and Hawkins (FP), claimed they had created room temperature,...
This article reports a study of a cold target with a high Fermi energy in light of recent research t...
In a Fermi-degenerate plasma, the electronic stopping of a slow ion is smaller than that given by th...
Laser-driven fusion validated with burning plasma. [Figure not available: see fulltext.
DOI
Add to ORKG