Abstract
The electronic structure of high-quality Ti${\mathrm{Se}}_{2}$ and Ti${\mathrm{S}}_{2}$ crystals has been investigated using angle-resolved photoemission with HeI, HeII, and NeI resonance radiation. Results compare well with recent self-consistent energy-band calculations although differences occur which may be due to the three- rather than two-dimensional nature of specific bands. Occupied $d$ states at the zone edge are observed in both materials. A small overlap with the $\frac{s}{p}$ valence band at $\ensuremath{\Gamma}$ is observed in the case of Ti${\mathrm{Se}}_{2}$ in approximate agreement with other workers. Ti${\mathrm{S}}_{2}$ appears to be a defect semiconductor with a band gap of 0.3 \ifmmode\pm\else\textpm\fi{} 0.2 eV.
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