@article{oai:nifs-repository.repo.nii.ac.jp:00010844,
 author = {Oyola, Pablo and Gonzalez-Martin, J. and Garcia-Munoz, M. and Galdon-Quiroga, J. and Birkenmeier, G. and Viezzer, E. and Dominguez-Palacios, J. and Rueda-Rueda, J. and Rivero-Rodriguez, J.F. and TODO,  Yasushi and ASDEX, Upgrade Team},
 issue = {4},
 journal = {Review of Scientific Instruments},
 month = {Apr},
 note = {0000-0002-8455-1090, A synthetic fast-ion loss (FIL) detector and an imaging Heavy Ion Beam Probe (i-HIBP) have been implemented in the 3D hybrid kinetic-magnetohydrodynamic code MEGA. First synthetic measurements from these two diagnostics have been obtained for neutral beam injection-driven Alfvén Eigenmode (AE) simulated with MEGA. The synthetic FILs show a strong correlation with the AE amplitude. This correlation is observed in the phase-space, represented in coordinates (Pϕ, E), being toroidal canonical momentum and energy, respectively. FILs and the energy exchange diagrams of the confined population are connected with lines of constant E′, a linear combination of E and Pϕ. First i-HIBP synthetic signals also have been computed for the simulated AE, showing displacements in the strike line of the order of ∼1 mm, above the expected resolution in the i-HIBP scintillator of ∼100 μm.},
 title = {Implementation of synthetic fast-ion loss detector and imaging heavy ion beam probe diagnostics in the 3D hybrid kinetic-MHD code MEGA},
 volume = {92},
 year = {2021}
}