Phonon-Assisted Indirect Transitions in Cadmium Sulfate Crystals

Abstract

The fundamental absorption edge of “suprapur” cadmium sulphate (3CdSO₄ · 8H₂O) crystal occurs in the region below 200 nm. The power-law dependence of the optical density on photon energy suggests indirect electronic transitions made possible by the emission or absorption of 0.067 eV phonons. The indirect band gap (E_g′) at 300 K is 6.09 eV. The phonon energy of 0.067 eV is found to arise from one of the Raman-active modes (E ) of the sulphate ion. The band edge is found to shift monotonically towards higher energies at a rate of - 2.3 meV per K between 300 and 77 K. The laser Raman spectrum of the 3CdSO₄ · 8H₂O is also reported.