Add to ORKGIn 1951 Spitzer proposed the stellarator as a device for confining plasma and heating it to thermonuclear temperatures.1 Since that time, a series of devices has been constructed and operated at Princeton Univer-sity for experimental research in such systems. This paper summarizes experimental results in the funda-mental areas of heating and confinement. Accom-panying papers present evidence for the importance of cooperative processes in the plasmas of these devices.2-
Two significiant problems that need to be solved for any future fusion device are heat removal and p...
Two significiant problems that need to be solved for any future fusion device are heat removal and p...
Stellarators (“star generators”) belong to the earliest concepts for magnetic confinement of fusion ...
The stellarator is a toroidal fusion plasma confinement device with nested magnetic flux surfaces. T...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...
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...
The research in plasma physics and controlled thermonuclear research at M.I.T. has evolved from a re...
The research into magnetic confinement of plasmas has been primarily driven by fusion reactor develo...
This paper describes the evolution of the stellarator program at the Princeton Plasma Physics Labora...
Summary. — Fusion is the energy source of the universe. The local conditions in the core of the Sun ...
The suggestion that thermonuclear reactions were the energy source of stars was made in 1928 by Atk...
Dynamics of plasma confinement was considered in the experiments on ECR plasma heating in the L-2M s...
"July 1962"Reports of the Princeton University Plasma Physics Laboratory issued after 1995 are avail...
Two significiant problems that need to be solved for any future fusion device are heat removal and p...
Two significiant problems that need to be solved for any future fusion device are heat removal and p...
Stellarators (“star generators”) belong to the earliest concepts for magnetic confinement of fusion ...
The stellarator is a toroidal fusion plasma confinement device with nested magnetic flux surfaces. T...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...
Stellarators are toroidal devices where the required rotational transform of the magnetic field line...
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...
The research in plasma physics and controlled thermonuclear research at M.I.T. has evolved from a re...
The research into magnetic confinement of plasmas has been primarily driven by fusion reactor develo...
This paper describes the evolution of the stellarator program at the Princeton Plasma Physics Labora...
Summary. — Fusion is the energy source of the universe. The local conditions in the core of the Sun ...
The suggestion that thermonuclear reactions were the energy source of stars was made in 1928 by Atk...
Dynamics of plasma confinement was considered in the experiments on ECR plasma heating in the L-2M s...
"July 1962"Reports of the Princeton University Plasma Physics Laboratory issued after 1995 are avail...
Two significiant problems that need to be solved for any future fusion device are heat removal and p...
Two significiant problems that need to be solved for any future fusion device are heat removal and p...
Stellarators (“star generators”) belong to the earliest concepts for magnetic confinement of fusion ...