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100129s2010 nyua ob 001 0 eng |
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|a 2019713710
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|a 923657661
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|a 9781616683528
|q (hardcover ;
|q alk. paper)
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|a 161668352X
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|a 9781616685188
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|a 621.48/4
|2 22
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|a UAMI
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|a Glow discharges and tokamaks /
|c Sean A. Altone, editor.
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|a Hauppauge, N.Y. :
|b Nova Science Publishers,
|c ©2010.
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|a 1 online resource
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|a text
|b txt
|2 rdacontent
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|a computer
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|a online resource
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|a Physics research and technology
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|a Includes bibliographical references and index.
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|a Print version record.
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|a GLOW DISCHARGES AND TOKAMAKS -- GLOW DISCHARGES AND TOKAMAKS -- Contents -- Preface -- Automatic Control Systems in Tokamak Plasmas: Current Status and Needs -- Abstract -- 1. Introduction -- II. Preliminaries -- A. Classical Automatic Control -- 1. The concept of feedback control -- 2. Topics of importance in system control -- 3. The PID controller -- B. Modern Control Strategies -- 1. Adaptive control -- 2. Optimal control -- 3. Stochastic control -- 4. Robust control -- 2. Intelligent control -- C. The Tokamak Fusion Device
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|a 1. Anatomy of a tokamak2. Experimental results -- D. Physics Modelling of Tokamak Plasmas -- 1. Plasma equilibrium and stability -- 2. Auxiliary heating and diagnostics -- III. Overview of Feedback Control in Tokamak Plasmas -- A. Short History of Tokamak Automatic Control -- B. Classes of Problems Requiring Feedback Control -- IV. Plasma Equilibrium Control -- A. Plasma Shape Identification -- B. Control of the Plasma Shape and Position -- 1. Modelling the plasma-vessel-coil interaction -- 2. Radial position and shape control
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|a 3. The problem of vertical stabilizationC. Integrated Control Solutions -- V. Feedback Control of Mhd Instabilities -- A. The Problem of Resistive Wall Modes -- 1. Model of the RWM instability -- 2. Methods of stabilization -- B. Suppression of Neoclassical Tearing Modes -- 1. The modified Rutherford equation -- 2. Stabilization by current drive -- C. Edge Localized Modes -- VI. Other Tokamak Control Issues -- A. Controlling the Plasma Profiles -- B. Off-Normal Effects -- VII. Conclusion -- Acknowledgments -- References
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|a Lower Hybrid Current Drive Experiments in the HT-7 TokamakAbstract -- 1. Experimental Setup -- 2. LHCD Efficiency -- 2.1. CD Efficiency -- 2.2. OH-RF Synergy Current Drive -- 3. Improved LHCD Efficiency by IBW Heating -- 4. Hot Electrical Conductivity in LHCD Plasmas -- 5. LHCD for High Performance Experiment -- 6. Behaviors of Fast Electrons in LHCD Plasmas -- 6.1. Transport of Fast Electrons -- 6.2. Photon Temperature of Fast Electrons Distribution -- 6.3. Oscillations in the FEB Emissions -- a. Inverted sawtooth-like oscillation
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|a B. sawtooth-like oscillationAcknowledgments -- References -- Principles and Application of Small Size Divertor Tokamak Plasma Edge -- Abstract -- Nomenclature -- Introduction -- 1. The Concept of the Tokamak Device -- 2. The Plasma Edge -- 2.1. Importance of the plasma edge behaviour -- 2.2. Controlling the plasma Edge -- 3. Basic Transport Equations (Fluid Equations) -- 3.1. Particle balance equation -- 3.2. Parallel momentum balance for ions -- 3.3. Parallel momentum balance for electrons -- 3.4. Current continuity equation
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|a eBooks on EBSCOhost
|b EBSCO eBook Subscription Academic Collection - Worldwide
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|a Glow discharges.
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|a Tokamaks.
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|a Automatic control.
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|a Décharges luminescentes.
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|a Tokamaks.
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|a Commande automatique.
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|a TECHNOLOGY & ENGINEERING
|x Power Resources
|x Nuclear.
|2 bisacsh
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|a Automatic control
|2 fast
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|a Glow discharges
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|a Tokamaks
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|a Altone, Sean A.
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|i Print version:
|t Glow discharges and tokamaks.
|d Hauppauge, N.Y. : Nova Science Publishers, ©2010
|z 9781616683528
|w (DLC) 2010001741
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830 |
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0 |
|a Physics research and technology.
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856 |
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