Optical and other physical characteristics of Ge–Se–Cd thin films

Different compositions of amorphous Ge 20 Se 80 and Ge 20 Se 75 M 5 (M= Cd, Bi, or Zn) semiconducting films were deposited onto cleaned glass substrates by thermal evaporation method. The interference transmission spectra T(l) at normal incidence for Ge 20 Se 75 M 5 thin films were obtained in the w

The present paper reports the effect of replacement of selenium by antimony on the optical constants of new quaternary chalcogenide As 14 Ge 14 Se 72Àx Sb x (where x = 3, 6, 9, 12 and 15 at.%) thin films. Films of As 14 Ge 14 Se 72Àx Sb x glasses were prepared by thermal evaporation of the bulk samp

The related optical and electrical parameters of amorphous Ge-Bi-Se thin films were studied. The dependence of optical and electrical properties on the Bi content was observed in most compositions. At Bi 410 at% the behavior show a switch from p to n type conduction mechanism. The correlation betwee

The optical properties of as-deposited Ge x Se 92Àx In 8 (x ¼ 10, 12.5, 15 and 20 at%) have been studied. Various optical constants have been calculated for the studied compositions. The mechanism of the optical absorption follows the rule of non-direct transition. It was found that, the optical ene

Thin films of chemical composition Ge 20 Se 80 and Ag 6 (Ge 0.20 Se 0.80 ) 94 are prepared by thermal evaporation technique. The optical properties of these thin films are determined by a method, based only on the transmission spectra at normal incidence, measured over the 400-2000 nm spectral range