Lakhin, V. P., & Schep, T. J. (2004). On the generation of mean fields by small-scale electron magnetohydrodynamic turbulence. Physics Of Plasmas, 11, 1424-1439. Retrievedde://000221084400027(Original work published Apr)
Trines, R., Kamp, L. P. J., Schep, T. J., Leemans, W. P., Esarey, E. H., & Sluijter, F. W. (2004). Enhancement of high-energy electron generation through suppression of Raman backscattering. Europhysics Letters, 66, 492-498. Retrievedde://000223064800005(Original work published May)
Bakunin, O. G., & Schep, T. J. (2004). Multi-scale percolation and scaling laws for anisotropic turbulent diffusion. Physics Letters A, 322, 105-110. Retrievedde://000189211700015(Original work published Feb)
Abdalla, T. M., Lakhin, V. P., Schep, T. J., & Westerhof, E. (2003). Spectral properties of decaying turbulence in electron magnetohydrodynamics. Physics Of Plasmas, 10, 3077-3092. Retrievedde://000184491800006(Original work published Aug)
de Blank, H. J., & Schep, T. J. (2002). Guiding center motion. Fusion Science And Technology, 41, 41-48. Retrievedde://000174683300006(Original work published Mar)
Trines, R., van Eijndhoven, S. J. L., Botman, J. I. M., Schep, T. J., & Hagedoorn, H. L. (2001). Modeling the fields of magneto-optical devices, including fringe field effects and higher order multipole contributions, with application to charged particle optics. Physical Review Special Topics-Accelerators And Beams, 4. https://doi.org/10.1103/PhysRevSTAB.4.062401(Original work published Jun)
Abdalla, T. M., Kuvshinov, B. N., Schep, T. J., & Westerhof, E. (2001). Electron vortex generation by strong, localized plasma heating. Physics Of Plasmas, 8, 3957-3966. https://doi.org/10.1063/1.1389299(Original work published Sep)
Kuvshinov, B. N., Rem, J., Schep, T. J., & Westerhof, E. (2001). Electron vortices in magnetized plasmas. Physics Of Plasmas, 8, 3232-3250. https://doi.org/10.1063/1.1375148(Original work published Jul)
Trines, R., Goloviznin, V. V., Kamp, L. P. J., & Schep, T. J. (2001). Generation of fast electrons by breaking of a laser-induced plasma wave. Physical Review E, 63, art. no.-026406. https://doi.org/10.1103/PhysRevE.63.026406(Original work published Feb)