Brief discussions are given on research work at the National CTR Computer Center at Livermore, high-field superconducting magnets for fusion reactors, and digital image processing for plasma diagnostics. Some developmental work on multifilamentary superconductors of Nb--Ti and Nb--Sn is described. Some complex mathematical techniques for enhancing and restoring digital images for plasma diagnostics are discussed. (MOW
Accelerator magnet technology is currently dominated by the use of Nb Ti superconductor. New and mor...
The development of large-bore, high-field magnets for fusion energy applications requires a system a...
Three types of thermonuclear fusion devices currently under development are reviewed for an electric...
Three research programs at Lawrence Livermore Laboratory are described. (1) The solid-state microsco...
Supporting research activities continued to provide the technical basis for future mirror-confinemen...
Considerable progress has been achieved during the last few decades in the various fields of applied...
The application of computers to magnetic fusion energy research is essential. In the last several ye...
This report surveys the need for large computers in analyzing the properties of magnetically confine...
Significant improvements in the properties ofsuperconducting materials have occurred recently. These...
The importance of computer modeling in magnetic fusion (MFE) and energy research (ER) programs is di...
The increase of energy in accelerators over the past decades has led to the design of superconductin...
Fusion research in the United States is sponsored by the Department of Energy's Office of Fusio...
Color poster with text, images, charts, photographs, and graphs.Superconducting materials are a fast...
As magnetic fusion experiments progress towards longer time-scales, more intense neutron and gamma b...
This chapter discusses several general comments on superconducting magnets and presents the details ...
Accelerator magnet technology is currently dominated by the use of Nb Ti superconductor. New and mor...
The development of large-bore, high-field magnets for fusion energy applications requires a system a...
Three types of thermonuclear fusion devices currently under development are reviewed for an electric...
Three research programs at Lawrence Livermore Laboratory are described. (1) The solid-state microsco...
Supporting research activities continued to provide the technical basis for future mirror-confinemen...
Considerable progress has been achieved during the last few decades in the various fields of applied...
The application of computers to magnetic fusion energy research is essential. In the last several ye...
This report surveys the need for large computers in analyzing the properties of magnetically confine...
Significant improvements in the properties ofsuperconducting materials have occurred recently. These...
The importance of computer modeling in magnetic fusion (MFE) and energy research (ER) programs is di...
The increase of energy in accelerators over the past decades has led to the design of superconductin...
Fusion research in the United States is sponsored by the Department of Energy's Office of Fusio...
Color poster with text, images, charts, photographs, and graphs.Superconducting materials are a fast...
As magnetic fusion experiments progress towards longer time-scales, more intense neutron and gamma b...
This chapter discusses several general comments on superconducting magnets and presents the details ...
Accelerator magnet technology is currently dominated by the use of Nb Ti superconductor. New and mor...
The development of large-bore, high-field magnets for fusion energy applications requires a system a...
Three types of thermonuclear fusion devices currently under development are reviewed for an electric...