[1] Yang Chen and Scott E. Parker. Particle-in-cell simulation with vlasov ions and drift kinetic electrons. Phys. Plasmas, 16:52305, 2009.
[2] A. M. Dimits, G. Bateman, M. A. Beer, B. I. Cohen, W. Dorland, G. W. Hammett, C. Kim, J. E. Kinsey, M. Kotschenreuther, A. H. Kritz, L. L. Lao, J. Mandrekas, W. M. Nevins, S. E. Parker, A. J. Redd, D. E. Shumaker, R. Sydora, and J. Weiland. Comparisons and physics basis of tokamak transport models and turbulence simulations. Physics of Plasmas, 7(3):969–983, 2000.
[3] E. A. Frieman and Liu Chen. Nonlinear gyrokinetic equations for low-frequency electromagnetic waves in general plasma equilibria. Physics of Fluids, 25(3):502–508, 1982.
[4] T. Görler, N. Tronko, W. A. Hornsby, A. Bottino, R. Kleiber, C. Norscini, V. Grandgirard, F. Jenko, and E. Sonnendrücker. Intercode comparison of gyrokinetic global electromagnetic modes. Physics of Plasmas, 23(7):72503, 2016.
[5] Youjun Hu, Matthew T. Miecnikowski, Yang Chen, and Scott E. Parker. Fully kinetic simulation of ion-temperature-gradient instabilities in tokamaks. Plasma, 1(1):105–118, 2018.
[6] X. Lapillonne, B. F. McMillan, T. Görler, S. Brunner, T. Dannert, F. Jenko, F. Merz, and L. Villard. Nonlinear quasisteady state benchmark of global gyrokinetic codes. Physics of Plasmas, 17(11):112321, 2010.
[7] A. Mishchenko, A. Bottino, A. Biancalani, R. Hatzky, T. Hayward-Schneider, N. Ohana, E. Lanti, S. Brunner, L. Villard, M. Borchardt, R. Kleiber, and A. Könies. Pullback scheme implementation in orb5. Computer Physics Communications, 238:194–202, 2019.
[8] Benjamin J. Sturdevant, S. Ku, L. Chacón, Y. Chen, D. Hatch, M. D. J. Cole, A. Y. Sharma, M. F. Adams, C. S. Chang, S. E. Parker, and R. Hager. Verification of a fully implicit particle-in-cell method for the vpar-formalism of electromagnetic gyrokinetics in the xgc code. Physics of Plasmas, 28(7):72505, jul 2021.
[9] Joris van der Hoeven. Gnu texmacs, a structured wysiwyw (what you see is what you want) editor for scientists. http://www.texmacs.org/, 2007. [Online].