@article{oai:nifs-repository.repo.nii.ac.jp:00011590,
 author = {IDA,  Katsumi and KOBAYASHI, Tatsuya and YOSHINUMA,  Mikirou and NAGAOKA,  Kenichi and NAGAOKA, Ken-ichi and OGAWA,  Kunihiro and TOKUZAWA,  Tokihiko and NUGA, Hideo and KATOH, Yuto},
 issue = {228},
 journal = {Communications Physics},
 month = {Sep},
 note = {0000-0002-0585-4561, The energy transfer from wave to particle occurs in collisionless plasma through the interaction between particle and wave, associated with the deformation of ion velocity space from Maxwell-Boltzmann distribution. Here we show the direct observation of mass-dependent collisionless energy transfer via Landau and transit-time damping in a laboratory plasma. The Landau and transit-time damping are confirmed by the bipolar velocity-space signature of the ion velocity distribution function, measured by fast charge exchange spectroscopy with a time resolution less than ion-ion collision time. The excellent agreement between the resonant phase velocity evaluated from the bipolar velocity-space signature and the wave’s phase velocity, estimated from the frequency of the magnetohydrodynamics oscillation measured with the plasma displacement is clear evidence for the Landau damping. The energy transfer from solitary wave to fully ionized carbon impurity ions is larger than that of bulk ions 2-3 times due to heavier mass.},
 title = {Direct observation of mass-dependent collisionless energy transfer via Landau and transit-time damping},
 volume = {5},
 year = {2022}
}