Preliminary Analysis of Alpha-Particle Effects in the Fusion Ignition Experiment IGNITEX

Rodolfo Carrera; Elena Montalvo; James W. Van Dam; Guo-Yong Fu; Lee M. Hively; George H. Miley; Marshall N. Rosenbluth; Steven Tamor

doi:dx.doi.org/10.13182/FST90-A29246

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Preliminary Analysis of Alpha-Particle Effects in the Fusion Ignition Experiment IGNITEX

Rodolfo Carrera, Elena Montalvo, James W. Van Dam, Guo-Yong Fu, Lee M. Hively, George H. Miley, Marshall N. Rosenbluth, Steven Tamor

Fusion Science and Technology / Volume 18 / Number 4 / December 1990 / Pages 535-555

Alpha Particles in Fusion Research / dx.doi.org/10.13182/FST90-A29246

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A simple fusion experiment for the production and control of deuterium-tritium-ignited plasmas for scientific study is considered. The basic elements of fusion product alpha-particle behavior at ignition are analyzed. Alpha-particle containment is rather high even with the assumption of significant levels of toroidal asymmetries. Production of thermally stable plasmas is possible because of the low-beta thermal damping provided by electron cyclotron emission. The stability of internal kink modes, high-number ballooning modes, and toroidicity-induced shear Alfvén eigenmodes is investigated in the presence of fusion alpha particles. These modes can be either stable or unstable depending on the selected operational regime at ignition.