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Beilstein J. Nanotechnol. 2015, 6, 1260–1267, doi:10.3762/bjnano.6.129
Figure 1: Example incoming trajectories (dotted lines) in the surface-scattering zone (typically 15 Å above a...
Figure 2: Comparison of reflection-electron-energy-loss spectra (REELS) of Si (left) and Cu (right) under bom...
Figure 3: Simulation geometry: 1 keV electrons impinge normally onto the material (Si or Cu); all backscatter...
Figure 4: (Upper panel) Reflection-electron-energy-loss spectrum (REELS) of Si under 100 eV bombardment (see [55]...
Figure 5: Same as Figure 4 with the inclusion of surface excitations in the modelling of electron transport through t...
Beilstein J. Nanotechnol. 2013, 4, 781–792, doi:10.3762/bjnano.4.89
Figure 1: Schematic representation of a random trajectory generated by PENELOPE [7]. The trajectory is determine...
Figure 2: Cylindrical sample geometries used in the simulations. Top: A 300 nm thick amorphous SiO2 substrate...
Figure 3: Snapshot of 50 simulated electron trajectories in the SiO2 substrate (left) and in the nanostructur...
Figure 4: Inelastic mean free paths for the relevant materials in this work presented in the usual log–log sc...
Figure 5: (a) Distribution of electrons backscattered and emitted into the vacuum from the substrate in absen...
Figure 6: Distribution of electrons backscattered and emitted into the vacuum from the substrate in the absen...
Figure 7: Energy deposited in the system as a function of the depth z for the indicated sample thicknesses dW...
Figure 8: Same as Figure 7 for a fixed deposit density (ρ = 10.6092 g/cm3) and a variable tungsten content.
Figure 9: IMFP in the different deposits with fixed density (ρ = 10.6092 g/cm3) and a variable tungsten conte...
Figure 10: Same as Figure 7 for a fixed composition (27.5% W, 50.4% C, 22.1% O) and a variable density.
Figure 11: IMFP in different deposits with fixed composition (27.5% W, 50.4% C, 22.1% O) and a variable densit...
Figure 12: Charge deposited into the system as a function of the depth z for the indicated sample thicknesses d...
Figure 13: Distribution of energy deposited in WC1.75O0.75 as a function of the depth z and the radial coordin...
Figure 14: Same as Figure 13 for the charge deposited in WC1.75O0.75.