This book provides a comprehensive look at the state of the art of externally driven and self-generated rotation as well as momentum transport in tokamak plasmas. In addition to recent developments, the book includes a review of rotation measurement techniques, measurements of directly and indirectly driven rotation, momentum sinks, self-generated flow, and momentum transport. These results are presented alongside summaries of prevailing theory and are compared to predictions, bringing together both experimental and theoretical perspectives for a broad look at the field. Both researchers and graduate students in the field of plasma physics will find this book to be a useful reference. Although there is an emphasis on tokamaks, a number of the concepts are also relevant to other configurations.
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Chapter1. Velocity Measurements in Tokamaks.- Chapter2. Momentum Sources.- Chapter3, Momentum Sinks.- Chapter4. Comparison With Neo-Classical Theory.- Chapter5. Residual Stress.- Chapter6. Momentum Transport.- Chapter7. Discussion and Future Outlook.
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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.