## Fluid/kinetic hybrid moment description of plasmas via a Chapman-Enskog-like approach |

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### Contents

ChapmanEnskoglike Approach | 11 |

Model Coulomb Collision Operator | 27 |

Recast Plasma Kinetic Equation | 37 |

7 other sections not shown

### Common terms and phrases

anisotropic stress tensor Ansatz banana collisionality regime banana regime bounce average calculation Chapman-Enskog-like approach Chapman-Enskog-like procedure Chapman-Enskog-like version Chapter collision operator model conservation equations conservation properties Coulomb collision operator density and temperature derived Description of Plasmas dissipative distortion F dot product drift kinetic equation dyadic tensor dynamical Maxwellian effects energy conserving faster time scale flow and heat fluid moment equations fluid/kinetic hybrid flux surface average function F given in Eq gradient gyro-angle gyro-averaged gyro-phase averaged heat stress tensor Hybrid Moment Description incompressibility integral kinetic distortion kinetic solution Laguerre polynomial Landau damping lowest order magnetic field magnetic flux magnetic flux surface magnetic pumping magnetically confined fusion mass flow momentum and heat neoclassical transport obtain parallel viscous forces physical plasma kinetic equation plasma physics plasma species poloidal angle recast kinetic equation right side side of Eq thesis tion tokamak University of Wisconsin-Madison untrapped particle vector velocity space vrvr