The largest current fusion experiment based on the stellarator concept. Located at NIFS, Japan. The mission of the LHD project is to develop a scientific basis for stellarator fusion reactor. An important feature in the LHD design is a high magnetic field of 3-4 Tesla produced by superconducting magnets.
Experiment at the Columbia University Plasma Physics Laboratory to demonstrate the feasibility of a high-beta tokamak stabilized by a combination of a close-fitting conducting wall, plasma rotation, and active feedback.
The spheromak is a toroidal magnetic confinement concept where no toroidal magnetic field coils link the torus. The magnetic field is generated primarily by plasma currents.
Helically Symmetric eXperiment is a university scale plasma experiment based on the large-aspect-ratio helically-symmetric stellarator approach. University of Wisconsin-Madison, USA.
Korean superconducting tokamak advanced research project is a superconducting tokamak facility for controlled fusion research. First plasma was obtained in 2008. One of the main goals is long-pulse non-inductive plasma heating and current drive.
Tokamak plasma research experiment based at Instituto Superior Técnico (IST), Portugal. Website includes tokamak description, photos, objectives, and physics program.
Mega Amp Spherical Tokamak experiment at Culham, UK, with information on MAST research, its history and planned upgrades, as well as links to other fusion research experiments in Europe.
Steady State Superconducting Tokamak at the Institute for Plasma Research, Gugarat, India, has an objective of a steady-state operation via the RF and NBI plasma heating and current drive.