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Stellarator
Richard G. Hewlett and Jack M. Holl. Atoms
Inis: Terminology Charts
The Stellarator Program J. L, Johnson, Plasma Physics Laboratory, Princeton University, Princeton, New Jersey
Highlights in Early Stellarator Research at Princeton
Tomographic Inversion of Wendelstein 7-X Stellarator Plasmas
On Fusion Driven Systems (FDS) for Transmutation
Stellarator and Tokamak Plasmas: a Comparison
Stellarator Research Opportunities
Latin Derivatives Dictionary
R:\TEMP\Bobbi\RDD-8 3-16-04 Reprint.Wpd
Peaceful Uses of Fusion
The Helias Reactor
Fifty Years of Magnetic Fusion Research (1958–2008): Brief Historical Overview and Discussion of Future Trends
Stellarator-Mirror Based Fusion Driven Fission Reactor
The Stellarator: Utilizing Nucear Fusion As a Power Source
First Results from the Soft X-Ray Pulse Height Analysis System on Wendelstein 7-X Stellarator
What Is Fusion? Two Fusion Types
ANOMALOUS TRANSPORT Divertor Used to Define the Structure of the Magnetic Field Surfaces at the Edge of the European Task Force Formed Plasma
Top View
The National Compact Stellarator Experiment at the Princeton Plasma Physics Laboratory
Stellarator and Tokamak Plasmas – a Comparison
The Field-Reversed Configuration As a Practical Fusion Reactor Core
Nuclear Science and Engineering Education Sourcebook 2020
Fusion Principles
Ca9110926 ALTERNATE FUSION CONCEPTS
What Is a Reversed Field Pinch? Dominique Escande
A New Optimized Quasihelically Symmetric Stellarator
Fusion Energy Via Magnetic Confinement
Tritium Breeding Calculation in a Stellarator Blanket
22.615, MHD Theory of Fusion Systems Prof. Freidberg Lecture 15: Alternate Concepts (With Darren Sarmer)
Tokamak/Stellarator (Vs. FRC) : Transport and Other Fundamentals
Study of the Hard X-Rays from Superthermal Electrons in the HSX Stellarator A
NUCLEAR TECHNOLOGY REVIEW 2018 Cover Photo Credits: Forschungszentrum Juelich Gmbh; IAEA; Rosenergoatom
The Path to Magnetic Fusion Energy
Indexing Terms Used Within Euratom's Nuclear Documentation System
Energy Balance Within Thermonuclear Reactors
NAS White Paper R1
NUCLEAR FUSION Half a Century of Magnetic Con®Nement Fusion Research
The National Compact Stellarator
Arxiv:1912.06289V3 [Physics.Plasm-Ph] 6 Mar 2020
20180801 Crucial Non-Thermal Ignition of HB11
New Revelation of Lightning Ball Observation and Proposal for a Nuclear Fusion Reactor Experiment
Research on Controlled Thermonuclear Fusion Offers the Prospect Of
On the History of the Research Into Controlled Thermonuclear Fusion
Spheromak Questions and Issues with Answers for the FESAC Toroidal Alternates Concept Community Input Meeting in Dallas
Fusion 2050 – European and Polish Perspective Ryszard S
THE REVERSED FIELD PINCH L Marrelli, P
Stellarator Coil Design: Past, Present and Future. S. R. Hudson + Thanks to Many
Overview of Results from the MST Reversed Field Pinch Experiment
Stellarator Fusion Reactors –– an Overview
Stellarator Fusion Reactors - an Overview
East Asian Nuclearization Is Trump Wrong?
Stellarator-Heliotron Control
2011 Executive Committee Annual Report to the Fusion Power Coordination Committee
Encyclopedia of Neuroscience* Marc D
I R P S BULLETIN Newsletter of the International Radiation Physics Society
Uw-Cptc 18-4
Tutorial: 3D Toroidal Physics - Testing the Boundaries of Symmetry Breaking
Nuclear Science and Engineering Education Sourcebook 2016
Compact Reversed-Field Pinch Reactors (CRFPR): Preliminary Engineering Considerations
Nuclear Studies
Reversed Field Pinch Approach to Magnetic Fusion S
Stellarator Research Opportunities