The stellarator has inherent advantages over the tokamak in achieving steady-state operation, especially due to its absence of disruptions and lack of need for current drive and the associated recirculating power. In recent years, there have been remarkable advances in the field of stellarator optimization, where precisely quasi-symmetric and precisely quasi-isodynamic magnetic configurations have been achieved with coils, allowing the neoclassical transport and energetic particle losses of stellarators to be reduced to levels comparable to those of tokamaks. At the same time, the development of high-temperature superconducting magnet technology will potentially double the magnetic field strength of stellarators. While these strong fields a...
Compact optimized stellarators offer novel solutions for confining high-beta plasmas and developing ...
Compact Stellarators with plasma aspect ratios Ap = Æ Ræ /Æ aæ = 2-4 are of interest because they m...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...
The stable generation of high temperature Hydrogen plasmas (ion and electron temperature in the rang...
Substantial advances have been made in the design of stellarator configurations to satisfy physics p...
The stellarator is a toroidal fusion plasma confinement device with nested magnetic flux surfaces. T...
The use of monolithic High Temperature Superconductors (HTS) for field shaping in stellarators and t...
Research on magnetic confinement of high-temperature plasmas has the ultimate goal of harnessing nuc...
\u3cp\u3e The two leading concepts for conf...
The Wendelstein 7-X stellarator, presently under construction in Greifswald, is the largest stellara...
Compact optimized stellarators offer novel solutions for confining high-beta plasmas and developing ...
Compact Stellarators with plasma aspect ratios Ap = Æ Ræ /Æ aæ = 2-4 are of interest because they m...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...
The stable generation of high temperature Hydrogen plasmas (ion and electron temperature in the rang...
Substantial advances have been made in the design of stellarator configurations to satisfy physics p...
The stellarator is a toroidal fusion plasma confinement device with nested magnetic flux surfaces. T...
The use of monolithic High Temperature Superconductors (HTS) for field shaping in stellarators and t...
Research on magnetic confinement of high-temperature plasmas has the ultimate goal of harnessing nuc...
\u3cp\u3e The two leading concepts for conf...
The Wendelstein 7-X stellarator, presently under construction in Greifswald, is the largest stellara...
Compact optimized stellarators offer novel solutions for confining high-beta plasmas and developing ...
Compact Stellarators with plasma aspect ratios Ap = Æ Ræ /Æ aæ = 2-4 are of interest because they m...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...