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Tokamak
FT/P3-20 Physics and Engineering Basis of Multi-Functional Compact Tokamak Reactor Concept R.M.O
Digital Physics: Science, Technology and Applications
Tokamak Foundation in USSR/Russia 1950--1990
The Tokamak As a Neutron Source
Stellarator and Tokamak Plasmas: a Comparison
Redalyc.Axial Neutron Flux Evaluation in a Tokamak System: a Possible Transmutation Blanket Position for a Fusion-Fission Transm
Assignment 3
Compact Fusion Reactors
Signature Redacted %
A Fission-Fusion Hybrid Reactor in Steady-State L-Mode Tokamak Configuration with Natural Uranium
Measurements of Hard X-Ray Emission Profiles in the TCV Tokamak During Electron Cyclotron Heating and Current Drive S
Aneutronic Fusion
The State of the DOE National Laboratories: 2020 Edition
Nuclear Measurements, Techniques and Instrumentation, Industrial Applications, Plasma Physics and Nuclear Fusion, 1986-1997. International Atomic
The Fusion Energy Program: the Role of TPX and Alternate Concepts
Nuclear Missions
Edge Plasma Phenomena in the Alcator C-Mod Tokamakmeasuredbyhighresolutionx-Ray Imaging Diagnostics by Thomas Sunn Pedersen
Stellarator and Tokamak Plasmas – a Comparison
Top View
Speeding the Path to Fusion Energy with Deep Learning
Spherical Tokamak on Earth
Fusion Principles
Calibration of Scintillation Detectors for Mev Charged Fusion Products M
What Is a Reversed Field Pinch? Dominique Escande
Motion and Equilibrium of a Spheromak in a Toroidal Flux Conserver M
A Review of Fusion and Tokamak Research Towards Steady-State Operation: a JAEA Contribution
Tokamak/Stellarator (Vs. FRC) : Transport and Other Fundamentals
The Path to Magnetic Fusion Energy
Preliminary Design of a Fusion-Fission Tokamak Pebble Bed Reactor
FT/1-5 the Spherical Tokamak Fusion Power Plant
Numerical Simulation of Reversed-Field Pinch Confinement
Radiation Protection in the Large Tokamak Device (JT-60) Facility
The Spherical Tokamak Route to Fusion Power Conventional Tokamaks (Eg JET) Spherical Tokamaks (ST)
Harnessing Energy from Nuclear Fusion
Efficiency and Scaling of Current Drive and Refuelling by Spheromak Injextiqn Into a Tokamak
Technical and Political Assessment of Peaceful Nuclear Power Program Prospects in North Africa and the Middle East
Unveiling the Most Powerful Spherical Tokamak on Earth
Optimization of Soft X-Ray Tomography on the COMPASS Tokamak
Radiation-Hardened X-Ray Imaging for Burning-Plasma Tokamaks Fredrick H
Preconceptual Design and Assessment of a Tokamak Hybrid Reactor
Designing a Tokamak Fusion Reactor —How Does Plasma Physics Fit In?
Perturbing an Axisymmetric Magnetic Equilibrium to Obtain a Quasi-Axisymmetric Stellarator
X-Ray Measurements During the Plasma Current Start-Up Experiments Using Lower Hybrid Wave on the TST-2 Spherical Tokamak
Americium and Curium Burnup in a Fusion Reactor
Proceedings of the Reversed-Field Pinch Theory Workshop Los
Overview on Chinese Tokamak Experimental Progress
Prospects for 3He-Fuelled Nuclear Fusion RESEARCH NOTE ZENON RESEARCH the Helium Bubble
Hard X-Ray Studies on the Castor Tokamak
1 Helicty Injection Current Drive of Spherical Tokamak
Tungsten Transport in a Tokamak: a First-Principle Based Integrated
Nuclear Fusion Reactors //Safety and Radiation Protection Considerations for Demonstration Reactors That Follow the ITER Facility
Stellarator-Heliotron Control
Spherical Tokamak Without External Toroidal Fields P.K
Arxiv:Physics/0401110V3
Strong Neutron Sources, 7Th INMM/Esarda Workshop, Aix-En-Provence, 2011
Economic Analysis of a Magnetic Fusion Production Reactor 1
Modular Aneutronic Fusion Engine
Study of Runaway Electrons with Hard X-Ray Spectrometry of Tokamak Plasmas “This Document Is Intended for Publication in the Open Literature
Compact Reversed-Field Pinch Reactors (CRFPR): Preliminary Engineering Considerations
High-Entropy Alloys for Advanced Nuclear Applications
Implementing the Comprehensive Test
Reversed Field Pinch Approach to Magnetic Fusion S
To the Choice of the Work Scenario of Compact Tokamak-Reactor with Transmutation and Pure Blanket
Prospects for Low Cost Fusion Development
Traditional Fusion Reaction: D + T → N (14.07 Mev) + 4He (3.52 Mev)
Lcxsm[Alnnlm Losalamos National Laboratory ~ Losalamos,New