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Author:   John Rice
Publisher:   Springer Nature Switzerland AG
Imprint:   Springer Nature Switzerland AG
Edition:   1st ed. 2022
Volume:   119
Weight:   0.418kg
ISBN:  

9783030922658

ISBN 10:   3030922650
Pages:   150
Publication Date:   14 January 2022
Audience:   Professional and scholarly ,  College/higher education ,  Professional & Vocational ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
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Table of Contents

1 Introduction  2 Velocity measurements in tokamaks                 2.1 Doppler shifts                                 2.1.1 Passive                                 2.1.2 Active                 2.2 Mode rotation  3 Momentum Sources                 3.1 Direct rotation drive                                 3.1.1 Neutral beam injection                                 3.1.2 Ion cyclotron range of frequencies waves                                 3.1.3 Lower hybrid waves                                 3.1.4 Electron cyclotron waves                                 3.1.5 Miscellaneous                 3.2 Indirect rotation drive                                 3.2.1 Orbit shift jxB forces                                 3.2.2 Fast ion and electron loss due to toroidal magnetic field ripple                                 3.2.3 Edge thermal ion orbit loss  4 Momentum sinks                 4.1 Neutral damping                 4.2 Locked modes, magnetic braking and neo-classical toroidal viscosity                 4.3 Edge localized modes  5 Comparison with neo-classical theory                 5.1 Poloidal rotation                 5.2 Toroidal rotation                 5.3 Poloidal asymmetries  6 Residual stress                 6.1 Enhanced confinement regimes                                 6.1.1 Ohmic high confinement mode                                 6.1.2 ICRF high and improved confinement modes                                 6.1.3 ECH high confinement modes                                 6.1.4 High confinement modes with LH                                 6.1.5 NBI high confinement modes                                 6.1.6 Plasmas with internal transport barriers                 6.2 Low confinement mode                                 6.2.1 Magnetic configurations                                 6.2.2 Rotation reversals                                 6.2.3 Auxiliary heated low confinement mode                                 6.2.4 Current driven reversals  7 Momentum transport                 7.1 Momentum diffusivity                 7.2 Momentum pinch                 7.3 Residual stress  8 Discussion and future outlook

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Author Information

John Rice is Senior Research Scientist at the Plasma Science and Research Center, MIT.  Areas of interest include intrinsic rotation, internal transport barrier formation, momentum, impurity and energy transport, and spectroscopy of medium and high Z impurities in magnetic confinement devices. Has authored over 150 refereed journal articles, with 48 as first author. Paper “Inter-Machine Comparison of Intrinsic Toroidal Rotation in Tokamaks”, J.E.Rice et al., Nucl. Fusion 47, 1618 (2007) won the 2010 Nuclear Fusion Journal Prize. Has served on the Ph.D. committees for 9 graduate students, and has supervised 20 M.I.T. undergraduate theses. Has been an APS Fellow since 2006 and the former Chair of the US Transport Task Force, has served on the executive committees for Atomic Processes in Plasmas, and High Temperature Plasma Diagnostics, and has been an official US member of the ITPA Transport and Confinement Group since 2001.

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