Gyrokinetic Landau collision operator in conservative form
Author(s)
Pan, Qingjiang; Ernst, Darin R
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A gyrokinetic linearized exact (not model) Landau collision operator is derived by transforming the symmetric and conservative Landau form. The formulation obtains the velocity-space flux density and preserves the operator's conservative form as the divergence of this flux density. The operator contains both test-particle and field-particle contributions, and finite Larmor radius effects are evaluated in either Bessel function series or gyrophase integrals. While equivalent to the gyrokinetic Fokker–Planck form with Rosenbluth potentials [B. Li and D. R. Ernst, Phys. Rev. Lett. 106, 195002 (2011)10.1103/PhysRevLett.106.195002], the gyrokinetic conservative Landau form explicitly preserves the symmetry between test-particle and field-particle contributions, which underlies the conservation laws and the H theorem, and enables discretization with a finite-volume or spectral method to preserve the conservation properties numerically, independent of resolution. The form of the exact linearized field-particle terms differs from those of widely used model operators. We show the finite Larmor radius corrections to the field-particle terms in the exact linearized operator involve Bessel functions of all orders, while present model field-particle terms involve only the first two Bessel functions. This new symmetric and conservative formulation enables the gyrokinetic exact linearized Landau operator to be implemented in gyrokinetic turbulence codes for comparison with present model operators using similar numerical methods.
Date issued
2019-02Department
Massachusetts Institute of Technology. Plasma Science and Fusion CenterJournal
Physical Review E
Publisher
American Physical Society
Citation
Pan, Qingjiang and Darin R. Ernst. "Gyrokinetic Landau collision operator in conservative form." Physical Review E 99, 2 (February 2019): 023201 © 2019 American Physical Society
Version: Final published version
ISSN
2470-0045
2470-0053