Add to ORKGIn heavy ion inertial fusion energy systems, intense beams of ions must be transported from the exit of the final focus magnet system through the target chamber to hit millimeter spot sizes on the target. In this paper, we examine three different modes of beam propagation: neutralized ballistic transport, assisted pinched transport, and self-pinched transport. The status of our understanding of these three modes is summarized, and the constraints imposed by beam propagation upon the chamber environment, as well as their compatibility with various chamber and target concepts, are considered. We conclude that, on the basis of our present understanding, there is a reasonable range of parameter space where beams can propagate in thick-liquid wa...
Target physics imposes requirements on the design of inertial fusion drivers. The influence of beam ...
In heavy-ion inertial-confinement fusion systems, intense beams of ions must be transported from the...
Heavy ion fusion (HIF) requires the acceleration, transport, and focusing of many individual ion bea...
In heavy ion inertial fusion energy systems, intense beams of ions must be transported from the exit...
Heavy ion beam transport through the containment chamber plays a crucial role in all heavy ion fusio...
In a heavy-ion driven, inertial confinement fusion power plant, a space-charge dominated beam of hea...
An attractive feature of the inertial fusion energy (IFE) approach to commercial energy production i...
Transport of intense heavy-ion beams to an inertial-fusion target after final focus is simulated her...
Concepts for heavy-ion fusion (HIF) reactors require the transport of kiloampere ion beams over dist...
In a heavy-ion driven, inertial confinement fusion power plant, a space-charge dominated beam of hea...
The work presented here evaluates the dynamics of a beam of heavy ions propagating through a chamber...
A new code, bimc, is under development to determine if a beam of heavy ions can be focused to the ne...
In heavy ion inertial confinement fusion systems, intense beams of ions must be transported from the...
In heavy ion inertial confinement fusion systems, intense beams of ions must be transported from the...
In a typical thick-liquid-wall scenario for heavy-ion fusion (HIF), between seventy and two hundred ...
Target physics imposes requirements on the design of inertial fusion drivers. The influence of beam ...
In heavy-ion inertial-confinement fusion systems, intense beams of ions must be transported from the...
Heavy ion fusion (HIF) requires the acceleration, transport, and focusing of many individual ion bea...
In heavy ion inertial fusion energy systems, intense beams of ions must be transported from the exit...
Heavy ion beam transport through the containment chamber plays a crucial role in all heavy ion fusio...
In a heavy-ion driven, inertial confinement fusion power plant, a space-charge dominated beam of hea...
An attractive feature of the inertial fusion energy (IFE) approach to commercial energy production i...
Transport of intense heavy-ion beams to an inertial-fusion target after final focus is simulated her...
Concepts for heavy-ion fusion (HIF) reactors require the transport of kiloampere ion beams over dist...
In a heavy-ion driven, inertial confinement fusion power plant, a space-charge dominated beam of hea...
The work presented here evaluates the dynamics of a beam of heavy ions propagating through a chamber...
A new code, bimc, is under development to determine if a beam of heavy ions can be focused to the ne...
In heavy ion inertial confinement fusion systems, intense beams of ions must be transported from the...
In heavy ion inertial confinement fusion systems, intense beams of ions must be transported from the...
In a typical thick-liquid-wall scenario for heavy-ion fusion (HIF), between seventy and two hundred ...
Target physics imposes requirements on the design of inertial fusion drivers. The influence of beam ...
In heavy-ion inertial-confinement fusion systems, intense beams of ions must be transported from the...
Heavy ion fusion (HIF) requires the acceleration, transport, and focusing of many individual ion bea...