Biro, L.P.L.P.BiroMark, G.I.G.I.MarkGyulai, J.J.GyulaiHavancszak, K.K.HavancszakLipp, S.S.LippLehrer, C.C.LehrerFrey, L.L.FreyRyssel, H.H.Ryssel2022-03-032022-03-031999https://publica.fraunhofer.de/handle/publica/19556510.1016/S0168-583X(98)00565-5Carbon nanotubes (CNT) were produced by high energy, heavy ion irradiation (215 MeV Ne, 246 MeV Kr, 156 MeV Xe) of graphite. On samples irradiated with Kr and Xe ions large craters were found by atomic force microscopy, these are attributed to sputtering. Frequently one or several CNTs emerge from the craters. Some of the observed CNTs showed a regular vibration pattern. No other carbon based materials, like amorphous carbon or fullerenes were evidenced. Focused ion beam cuts were used to compare CNTs with surface folds on graphite.enatomic force microscopecarbon nanotubesion beam effectsscanning tunnelling microscopysputteringsurface topography670620530539journal article