Valence-band structure of TiO 2 along the Γ-Δ- X and Γ-Σ- M directions
1994; American Physical Society; Volume: 49; Issue: 11 Linguagem: Inglês
10.1103/physrevb.49.7170
ISSN1095-3795
AutoresP.J. Hardman, Ganesh N. Raikar, C.A. Muryn, G. van der Laan, P.L. Wincott, G. Thornton, D.W. Bullett, P. A. D. M. A. Dale,
Tópico(s)ZnO doping and properties
ResumoAngle-resolved photoemission spectra of the (100) and (110) faces of ${\mathrm{TiO}}_{2}$ have been recorded in the photon-energy range from 18 to 47 eV. These normal emission data have been analyzed on the basis of direct transitions into free-electron-like final states, yielding valence-band dispersion relations, E(k), along the high-symmetry \ensuremath{\Delta} and \ensuremath{\Sigma} lines of the bulk Brillouin zone. Polarization selection rules are derived for the appropriate nonsymmorphic space group, which are used to identify the symmetries of the valence bands. Empirical dispersion relations are compared with the results of a band-structure calculation, which employed an ab initio atomic orbital-based method. While there is reasonable agreement overall, for a \ensuremath{\Delta}-line empirical band at about 1.2 eV below the valence-band maximum (${\mathit{E}}_{\mathrm{vbm}}$) there is no counterpart in the calculated bulk band structure. This discrepancy may be related to a ${\mathrm{TiO}}_{2}$(100) surface resonance predicted to lie 1.5 eV below ${\mathit{E}}_{\mathrm{vbm}}$.
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