Publications:
[1] A. Kleiner, K Imada, F Ebrahimi, N M Ferraro, S R Haskey, L Kogan and A Pankin, “A study of resistive peeling-ballooning modes across spherical tokamaks”, Plasma Phys. Control. Fusion 67 085026 (2025)
[2] Alexei Pankin, Fatima Ebrahimi, Jacob King, Andreas Kleiner, Jesus Dominguez-Palacios, “Effects beyond MHD on stability of wide and enhanced pedestal regimes in NSTX”, Plasma Phys. Control. Fusion 67 095023 (2025)
[3] Yueqiang Liu, Xi Chen, Zeyu Li and Fatima Ebrahimi“MARS-Q modeling of low-n resistive kink-peeling modes and edge harmonic oscillations in DIII-D”, Nucl. Fusion 66 036041 (2026)
[4] Yueqiang Liu, Chen Zhao, Fatima Ebrahimi, "Peeling-ballooning modes in spherical tokamaks: Multi-branch instabilities and effects beyond ideal MHD", Phys. Plasmas 32, 122507 (2025)
[5] T. Cote et al.,“First observations of edge instabilities in strongly shaped negative triangularity plasmas on DIII-D”, Plasma Phys. Control. Fusion 67 035033, 2025.
[6] J. Dominguez-Palacios Duran, J.R. King, V.A. Izzo, X. Chen, F. Ebrahimi and A. Pankin “Linear simulations of a wide pedestal quiescent H-mode plasma with the extended-MHD code NIMROD"
[7] S. Ku et. al, “Neoclasscial Edge Flows Between Strongly Negative and Positive Triangularities using XGC Gyrokinetic Simulations”, Phys. Plasmas 33, 032501 (2026)
[8] J. Li et. al, “Core XGC Gyrokinetic Simulations of Negative and Positive Triangularities ”, submitted to PoP
[9] R. Hager et al. “New Field Solver Enables Study of Peeling-Ballooning modes with XGC” submitted to PPCF
[10] Samaddar, A., Gong, Q., Madireddy, S., Hansen, C., Joung, S., Smith, D., & Ebrahimi, F. et al. (2025). “Spatiotemporal forecasting of the tokamak edge instability using neural networks”, Mach. Learn.: Sci. Technol. 6 035041 (2025)
[11] M. Rahman, Zhe Bai, J. King, et. al. ; Sparsified time-dependent Fourier neural operators for fusion simulations. Phys. Plasmas 1 December 2024; 31 (12): 123902.
[12] Alexei Y Pankin, Fatima Ebrahimi, Qian Gong, Jacob King, Andreas Kleiner, Jesus Dominguez-Palacios, Norbert Podhorszki, Eric Suchyta,"NIMROD-to-IMAS workflow for extended-magnetohydrodynamic data with reusable datasets and implications for IMAS schema development", submitted to JCP, https://arxiv.org/abs/2605.23121