论文信息 - A Versatile Optical Model Applied to CdTe and CdSe1–y Tey Alloys: Sensitivity to Film Composition and Relative Defect Density

A Versatile Optical Model Applied to CdTe and CdSe1–y Tey Alloys: Sensitivity to Film Composition and Relative Defect Density

A parametric optical model is developed for use in analyzing spectroscopic ellipsometry (SE) measurements of CdTe and $CdSe_{1-y}Te_{y}$ alloy films. Through fitting to measurements of a series of CdCl2 treated alloys spanning the full range of compositions, a database describing the optical response of $CdSe_{1-y}Te_{y}$ as a function of y is compiled. More specifically, spectral features are mathematically related to y, including bandgap-bowing. Additionally, the parametric model has the capability of quantitatively describing defect-induced sub-bandgap absorption through the determination of an Urbach energy (Eu). The accuracy of the SE-determined Eu is verified through complementary photothermal deflection spectroscopy measurements. For instance, Eu describing a CdTe film is measured to decrease from 42 to 20 meV after undergoing CdCl2 treatment. External quantum efficiency simulations of full solar cell structures making use of this database can be compared to actual measurements of devices to identify the source of performance gains and or losses as well as the composition of alloyed material within such devices.

[1] T. S. Moss,et al. Handbook on semiconductors , 1980 .

[2] A. Rockett,et al. Through‐the‐glass spectroscopic ellipsometry for analysis of CdTe thin‐film solar cells in the superstrate configuration , 2016 .

[3] F. Urbach. The Long-Wavelength Edge of Photographic Sensitivity and of the Electronic Absorption of Solids , 1953 .

[4] John A. Woollam,et al. Overview of variable-angle spectroscopic ellipsometry (VASE): II. Advanced applications , 1999, Optics + Photonics.

[5] Yanfa Yan,et al. Enhancing the photo-currents of CdTe thin-film solar cells in both short and long wavelength regions , 2014 .

[6] W. Oldham. Numerical techniques for the analysis of lossy films , 1969 .

[7] A. Boccara,et al. Photothermal deflection spectroscopy and detection. , 1981, Applied optics.

[8] Hiroyuki Fujiwara,et al. Assessment of effective-medium theories in the analysis of nucleation and microscopic surface roughness evolution for semiconductor thin films , 2000 .

[9] Katsuhisa Tanaka,et al. Photothermal deflection spectroscopy of chalcogenide glasses , 2002 .

[10] Dragan Panti,et al. Handbook on semiconductors , 1998 .

[11] W. Hager,et al. and s , 2019, Shallow Water Hydraulics.

[12] Corey L. Bungay,et al. Overview of variable-angle spectroscopic ellipsometry (VASE): I. Basic theory and typical applications , 1999, Optics + Photonics.