Model for quantitative analysis of reflection-electron-energy-loss spectra: Angular dependence

“…al. [13,16,18,[20][21][22][23][24][25] have employed the semi-classical dielectric response model proposed by Tougaard and Yubero [26][27][28][29] in their calculation of ELF. The algorithms of this method have been implemented in the generally available QUEELS-(k,)-REELS software package [29].…”

“…(6) with  i as an adjustable parameter. The values of the momentum dispersion coefficient  i are related to the effective mass, e.g,  i 0 for insulator and  i 1 for metals [14,[27][28][29]. The step function  ( −E g ) is included to describe the effect of the band gap energy E g in semiconductors and insulators.…”

“…The dielectric function is given in term of the energy loss function (ELF) Im(-1/) which is parameterized as a sum of DrudeLindhard type oscillators, as described in Refs. [14,15,[27][28][29]:…”

“…REELS is surface sensitive and the spectra carries information on the electronic structure of the material because the energy loss experienced by the incident electron depends on the electronic structure of the material. The spectra can easily be recorded over a wide energy-loss range [13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29]. The calculation of the ELFs of zirconium oxide, silicon dioxide, and zirconium silicates from REELS spectra has already been performed by Tahir et.…”

Stopping Powers and Inelastic Mean Free Path of 100 eV to 30 keV Electrons in Zirconium Silicates

“…al. [13,16,18,[20][21][22][23][24][25] have employed the semi-classical dielectric response model proposed by Tougaard and Yubero [26][27][28][29] in their calculation of ELF. The algorithms of this method have been implemented in the generally available QUEELS-(k,)-REELS software package [29].…”

“…(6) with  i as an adjustable parameter. The values of the momentum dispersion coefficient  i are related to the effective mass, e.g,  i 0 for insulator and  i 1 for metals [14,[27][28][29]. The step function  ( −E g ) is included to describe the effect of the band gap energy E g in semiconductors and insulators.…”

“…The dielectric function is given in term of the energy loss function (ELF) Im(-1/) which is parameterized as a sum of DrudeLindhard type oscillators, as described in Refs. [14,15,[27][28][29]:…”

“…REELS is surface sensitive and the spectra carries information on the electronic structure of the material because the energy loss experienced by the incident electron depends on the electronic structure of the material. The spectra can easily be recorded over a wide energy-loss range [13][14][15][16][17][18][19][20][21][22][23][24][25][26][27][28][29]. The calculation of the ELFs of zirconium oxide, silicon dioxide, and zirconium silicates from REELS spectra has already been performed by Tahir et.…”

Stopping Powers and Inelastic Mean Free Path of 100 eV to 30 keV Electrons in Zirconium Silicates

“…It is a widely used technique e.g. for determining the dielectric constant of the surface layer [2], measurement of the valence-electron density [3], the topography of the surface [4], ion bombardment induced damage [5], the band alignment of ultra thin gate oxide [6] etc.…”

Detection of nanoparticles by means of reflection electron energy loss spectroscopy depth profiling

Surface excitation parameters of low-energy electrons crossing solid surfaces