A.M. Bernal-Oliva scite author profile

Optical-transmission spectra are very sensitive to inhomogeneities in thin ®lms. In particular, a non-uniform thickness produces a clear shrinking in the transmission spectrum at normal incidence. If this deformation is not taken into account, it may lead to serious errors in the calculated values of the refractive index and ®lm thickness. In this paper, a method ®rst applied by Swanepoel for enabling the transformation of an optical-transmission spectrum of a thin ®lm of wedge-shaped thickness into the spectrum of a uniform ®lm, whose thickness is equal to the average thickness of the non-uniform layer, has been employed. This leads subsequently to the accurate derivation of the refractive index in the subgap region (0.1±1.8 eV), the average thickness, as well as a parameter indicating the degree of ®lmthickness uniformity. This optical procedure is applied to the particular case of freshly-prepared ®lms of the Ge 10 As 15 Se 75 ternary chalcogenide glassy alloy. The dispersion of the refractive index is discussed in terms of the Wemple±DiDomenico single-oscillator model. The optical-absorption edge is described using the`non-direct transition' model proposed by Tauc, and the optical energy gap is calculated by Tauc's extrapolation. Finally, the photo-induced and thermally induced changes in the optical properties of the aGe 10 As 15 Se 75 layers are also studied.

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Optical properties of amorphous Se films prepared by PECVD

Nagels

Sleeckx

Callaerts

et al. 1997

Solid State Communications

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On the optical constants of amorphous GexSe1−x thin films of non-uniform thickness prepared by plasma-enhanced chemical vapour deposition

Márquez

Nagels

González-Leal

et al. 1999

Vacuum

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Optical properties and structure of amorphous (As_0.33S_0.67)_100−xTe_xand Ge_xSb_40−xS₆₀chalcogenide semiconducting alloy films deposited by vacuum thermal evaporation

Márquez

Bernal-Oliva

González-Leal

et al. 2006

J. Phys. D: Appl. Phys.

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Amorphous films with compositions (As0.33S0.67)100−xTex (x = 0, 1, 5 and 10 at.%) and GexSb40−xS60 (x = 10, 20 and 30 at.%) have been prepared by thermal evaporation. The compositional dependences of their optical properties, with increasing Te and Ge content, respectively, are explained in terms of the modifications occurring in the film structure: Te joins the glassy network through the substitution of S atoms in the AsS3 pyramidal units, to form new AsS2Te mixed pyramidal units, on the one hand, and, on the other hand, there is a presence of GeS4 and S3Ge–GeS3 structural units, when the Ge content is increased. The refractive-index dispersion has been analysed on the basis of the Wemple–DiDomenico single-oscillator approach. It has been found that the refractive index increases in the As–S–Te system, with increasing Te content, while it decreases instead, in the Ge–Sb–S system, with increasing Ge content. The behaviour of the Tauc gap, when the composition of the material is varied, shows, as expected, just the opposite trends.

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A.M. Bernal-Oliva

Controlling the optical constants of thermally-evaporated Ge10Sb30S60 chalcogenide glass films by photodoping with silver

Optical-constant calculation of non-uniform thickness thin films of the Ge10As15Se75 chalcogenide glassy alloy in the sub-band-gap region (0.1–1.8eV)

Optical properties of amorphous Se films prepared by PECVD

On the optical constants of amorphous GexSe1−x thin films of non-uniform thickness prepared by plasma-enhanced chemical vapour deposition

Optical properties and structure of amorphous (As_0.33S_0.67)_100−xTe_xand Ge_xSb_40−xS₆₀chalcogenide semiconducting alloy films deposited by vacuum thermal evaporation

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A.M. Bernal-Oliva

Controlling the optical constants of thermally-evaporated Ge10Sb30S60 chalcogenide glass films by photodoping with silver

Optical-constant calculation of non-uniform thickness thin films of the Ge10As15Se75 chalcogenide glassy alloy in the sub-band-gap region (0.1–1.8eV)

Optical properties of amorphous Se films prepared by PECVD

On the optical constants of amorphous GexSe1−x thin films of non-uniform thickness prepared by plasma-enhanced chemical vapour deposition

Optical properties and structure of amorphous (As0.33S0.67)100−xTexand GexSb40−xS60chalcogenide semiconducting alloy films deposited by vacuum thermal evaporation

Contact Info

Product

Resources

About

Optical properties and structure of amorphous (As_0.33S_0.67)_100−xTe_xand Ge_xSb_40−xS₆₀chalcogenide semiconducting alloy films deposited by vacuum thermal evaporation