Add to ORKGThe control of the current, position and shape of an elongated cross-section tokamak plasma is complicated by the instability of the plasma vertical position. Linearised models all share the feature of a single unstable pole, at
The ideal-MHD theory of axisymmetric modes with toroidal mode number n= 0 in tokamak plasmas is dev...
Growth rates of the axisymmetric instability of elongated plasmas in TCV are measured, in open loop ...
In this paper, we present a new approach for the design of a plasma current and shape feedback contr...
Introduction The control of the current, position and shape of a tokamak plasma is complicated by th...
Elongated plasmas lead to improved performance in tokamaks but make the plasma prone to vertical ins...
The design of a controller which will control the current in the active control coils of a tokamak f...
Early Tokamaks with circular cross-section plasmas were intrinsically vertically stable and no probl...
Tokamaks are the most promising approach for nuclear fusion on earth. They are toroidal machines whe...
The thesis describes the design of a novel non-linear controller for the plasma vertical position in...
In this paper we discuss the problem of plasma vertical stabilization at the EAST tokamak. By exploi...
Vertical instability of a tokamak plasma can be controlled by nonaxisymmetric magnetic fields locali...
Thermonuclear controlled fusion is a promising answer to the current energy and climate issues, prov...
Introduction: Plasma shaping is a means to improve tokamak performance. In order to test the!-limit ...
Early tokamaks with circular cross-section plasmas were vertically stable in nature and no problems ...
About 85% of the primary energy is currently obtained from fossil sources. In the next future, nucle...
The ideal-MHD theory of axisymmetric modes with toroidal mode number n= 0 in tokamak plasmas is dev...
Growth rates of the axisymmetric instability of elongated plasmas in TCV are measured, in open loop ...
In this paper, we present a new approach for the design of a plasma current and shape feedback contr...
Introduction The control of the current, position and shape of a tokamak plasma is complicated by th...
Elongated plasmas lead to improved performance in tokamaks but make the plasma prone to vertical ins...
The design of a controller which will control the current in the active control coils of a tokamak f...
Early Tokamaks with circular cross-section plasmas were intrinsically vertically stable and no probl...
Tokamaks are the most promising approach for nuclear fusion on earth. They are toroidal machines whe...
The thesis describes the design of a novel non-linear controller for the plasma vertical position in...
In this paper we discuss the problem of plasma vertical stabilization at the EAST tokamak. By exploi...
Vertical instability of a tokamak plasma can be controlled by nonaxisymmetric magnetic fields locali...
Thermonuclear controlled fusion is a promising answer to the current energy and climate issues, prov...
Introduction: Plasma shaping is a means to improve tokamak performance. In order to test the!-limit ...
Early tokamaks with circular cross-section plasmas were vertically stable in nature and no problems ...
About 85% of the primary energy is currently obtained from fossil sources. In the next future, nucle...
The ideal-MHD theory of axisymmetric modes with toroidal mode number n= 0 in tokamak plasmas is dev...
Growth rates of the axisymmetric instability of elongated plasmas in TCV are measured, in open loop ...
In this paper, we present a new approach for the design of a plasma current and shape feedback contr...