Determination of AlAs optical constants by variable angle spectroscopic ellipsometry and a multisample analysis

Abstract

Using variable angle spectroscopic ellipsometry, optical constants for AlAs (1.4–5.0 eV) are presented which are simultaneously compatible with measured data from four different samples. The below‐gap index values are compatible with published prism measured values. The second derivative spectrum are compatible with published values above the direct band gap. The AlAs spectra is Kramers–Kronig self‐consistent over the measured range and is compatible with published values from 0.6 to 1.4 eV. The optical constants for thin (E₁ and E₁+Δ₁ critical‐point structure is shifted to higher energies as previously observed for GaAs quantum wells. Bulk AlAs optical constants are shown to be different from those of a thin (∼20 Å) AlAs barrier layer embedded in GaAs. The thin barrier layer exhibits a highly broadened critical‐point structure. This barrier broadening effect (AlAs) and the thin cap shifting effects (GaAs) have implications for in situ growth control schemes which make use of the E₁ and E₁+Δ₁ critical‐point region.