Spheromak

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A spheromak is a magnetic fusion energy concept in which the plasma is in magnetohydrodynamic equilibrium. The stabilizing magnetic field is largely self-generated through plasma currents, leading to a stable, typically toroidal plasma; the term 'spheromak' is also used to refer to the plasma configuration itself.

A spheromak device is, like a Field-Reversed Configuration, considered a type of compact toroid. In contrast with tokamaks and stellarators, spheromak devices have relatively simple designs which require only one set of magnetic coils. Spheromak devices can be built somewhat like tokamaks, in a cylindrical structure, but the stability of spheromak plasmas also allows their creation by 'gun' devices. In a plasma gun, a pulse of electricity ionizes some gas, which is expelled from the barrel and coalesces into a stable spheromak. By colliding spheromaks together, scientists can study magnetic reconnection and other stellar phenomena.

The spheromak is an "alternate concept" that is considered by many plasma physicists to be less promising than the tokamak and stellarator (in terms of generating fusion energy), and accordingly receives relatively little attention and funding.


Fusion power
v  d  e
Atomic nucleus | Nuclear fusion | Nuclear power | Nuclear reactor | Timeline of nuclear fusion
Plasma physics | Magnetohydrodynamics | Neutron flux | Fusion energy gain factor | Lawson criterion
Methods of fusing nuclei

Magnetic confinement: Tokamak - Spheromak - Stellarator - Reversed field pinch - Field-Reversed Configuration - Levitated Dipole
Inertial confinement: Laser driven - Z-pinch - Bubble fusion (acoustic confinement) - Fusor (electrostatic confinement)
Other forms of fusion: Muon-catalyzed fusion - Pyroelectric fusion - Migma - Cold fusion(disputed)

List of fusion experiments

Magnetic confinement devices
ITER (International) | JET (European) | JT-60 (Japan) | Large Helical Device (Japan) | KSTAR (Korea) | EAST (China) | T-15 (Russia) | DIII-D (USA) | Tore Supra (France) | ASDEX Upgrade (Germany) | TFTR (USA) | NSTX (USA) | NCSX (USA) | Alcator C-Mod (USA) | LDX (USA) | H-1NF (Australia) | MAST (UK) | START (UK) | Wendelstein 7-X (Germany) | TCV (Switzerland) | DEMO (Commercial)


Inertial confinement devices
Laser driven: NIF (USA) | OMEGA laser (USA) | Nova laser (USA) | Novette laser (USA) | Nike laser (USA) | Shiva laser (USA) | Argus laser (USA) | Cyclops laser (USA) | Janus laser (USA) | Long path laser (USA) | 4 pi laser (USA) | LMJ (France) | GEKKO XII (Japan) | ISKRA lasers (Russia) | Vulcan laser (UK) | Asterix IV laser (Czech Republic) | HiPER laser (European)
Non-laser driven:
Z machine (USA) | PACER (USA)


See also: International Fusion Materials Irradiation Facility


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