Intrinsic Optical Absorption of Gallium Phosphide between 2.33 and 3.12 eV

Abstract

Single ribbons of gallium phosphide have been synthesized which are very thin (down to ∼0.35 μ) and yet possess relatively large cross‐sectional areas with uniform thickness so that high‐resolution optical‐absorption measurements can be extended well above the lowest energy direct interband electronic transition (Γ₁₅→Γ₁). The Γ₁₅→Γ₁ exciton energy gap is 2.873 eV below 25°K, and the internal binding energy of the direct exciton is about 5 meV. Direct transitions involving hole states in the split‐off valence band can be clearly seen at low temperatures, and the spin‐orbit splitting is 82±1 meV. Weak structure corresponding to indirect transitions at the Γ₁₅→X₃ energy gap is also observed at low temperatures, and the separation of the X₃ and X₁ conduction‐band minima is 0.29±0.01 eV, in excellent agreement with the value obtained from interconduction‐band absorption spectra. The temperature coefficient of the Γ₁₅→Γ₁ direct energy gap is − (5.2±0.1)×10⁻⁴ eV(°K)⁻¹ near 300°K, more than twice the value for the Γ₁₅→X₁ indirect gap.