<--- Back to Details
First PageDocument Content
Nuclear physics / Plasma physics / Physics / Fusion power / Magnetic confinement fusion / Stellarator / ITER / Plasma stability / SST-1 / Fusion reactors / Tokamaks / Nuclear technology
Date: 2002-01-02 10:40:36
Nuclear physics
Plasma physics
Physics
Fusion power
Magnetic confinement fusion
Stellarator
ITER
Plasma stability
SST-1
Fusion reactors
Tokamaks
Nuclear technology

DraftModular Program Pathway 3.1 Pathway Overview

Add to Reading List

Source URL: fire.pppl.gov

Download Document from Source Website

File Size: 90,86 KB

Share Document on Facebook

Similar Documents

Quasi-Poloidal Stellarator Experiment (QPS)

DocID: 1ukHx - View Document

Fusion power / Plasma physics / Stellarator / Tokamaks / Plasma / TJ-II / Electric Tokamak

117 Departments of the Research School Plasma Research Laboratory Introduction The earliest work on plasma physics in the School started in late 1958,

DocID: 1ooCN - View Document

COMMENTARY | INSIGHT reduction and improved stability 16,17. The Wendelstein 7-X (W7-X) stellarator in Greifswald, Germany has just begun operation18; the 3D magnetic field was optimized computationally to reduce the

DocID: 1nWnn - View Document

M.Sc Thesis Simulation of neutron uxes around the W7-X Stellarator Jenny Andersson Stockholm 1999

DocID: 1lWTa - View Document

Tokamaks / Fusion power / Energy / Plasma physics / Plasma / Stellarator / EAST / ITER / Fusion reactors / Physics / Nuclear physics

Microsoft Word - RUFSD_MIZUUCHI_rev.doc

DocID: 1fSBj - View Document