@article{oai:repo.qst.go.jp:00078196,
 author = {Grandigrard, V. and Garbet, X. and Ehrlacher, Ch. and Biancalani, A. and Bottino, A. and Novikau, I. and Asahi, Y. and Caschera, E. and G., Dif-Pradalier and Donnel, P. and Ghendrih, Ph. and Gillot, C. and Latu, G. and Passeron, Ch. and Sarazin, Y. and Zarzoso, D. and Yuuichi, Asahi},
 issue = {12},
 journal = {Physics of Plasmas},
 month = {Dec},
 note = {Barely trapped and passing electrons have been recently predicted to strongly enhance the damping rate of Geodesic Acoustic Modes
(GAMs) in tokamak plasmas, while keeping their real frequency almost unchanged as compared to the case with adiabatic electrons. In this
paper, dedicated gyrokinetic simulations are successfully compared with these analytical predictions. Specifically, the scaling of the GAM
damping rate with respect to the ion to electron mass ratio, to the electron to ion temperature ratio, to the safety factor, and to the aspect
ratio is recovered in most regions of the relevant parameter space.},
 title = {Linear collisionless dynamics of the GAM with kinetic electrons: Comparison simulations/theory},
 volume = {26},
 year = {2019}
}