A.–S. Gadallah scite author profile

We report manufacturing and characterization of low cost ZnO thin films grown on glass substrates by sol-gel spin coating method. For structural properties, X-ray diffraction measurements have been utilized for evaluating the dominant orientation of the thin films. For optical properties, reflectance and transmittance spectrophotometric measurements have been done in the spectral range from 350 nm to 2000 nm. The transmittance of the prepared thin films is 92.4% and 88.4%. Determination of the optical constants such as refractive index, absorption coefficient, and dielectric constant in this wavelength range has been evaluated. Further, normal dispersion of the refractive index has been analyzed in terms of single oscillator model of free carrier absorption to estimate the dispersion and oscillation energy. The lattice dielectric constant and the ratio of free carrier concentration to free carrier effective mass have been determined. Moreover, photoluminescence measurements of the thin films in the spectral range from 350 nm to 900 nm have been presented. Electrical measurements for resistivity evaluation of the films have been done. An analysis in terms of order-disorder of the material has been presented to provide more consistency in the results.

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Stimulated emission from ZnO thin films with high optical gain and low loss

Gadallah¹,

Nomenyo²,

Couteau

et al. 2013

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Abstract:Stimulated surface-and edge-emission were investigated for ZnO thin films grown epitaxially by pulsed laser deposition. The lasing threshold was 0.32 MW/cm 2 for surface pumping and 0.5 MW/cm 2 for edge pumping, which is significantly lower than thresholds observed previously. A modified variable stripe length method was used to measure the gain, which was 1369 cm -1 for Nband emission. Losses were measured using the shifting excitation spot method and values of 6.2 cm -1 and 6.3 cm -1 were found for the N-band and P-band, respectively. The measured gain and loss were the highest and lowest (respectively) ever reported for ZnO films.

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Enhancement of the Collective Optical Properties of Plasmonic Hybrid Carbon Dots via Localized Surface Plasmon

Emam

Mostafa

Mohamed

et al. 2018

Journal of Luminescence

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A.–S. Gadallah

Structural, Optical Constants and Photoluminescence of ZnO Thin Films Grown by Sol-Gel Spin Coating

Stimulated emission from ZnO thin films with high optical gain and low loss

Enhancement of the Collective Optical Properties of Plasmonic Hybrid Carbon Dots via Localized Surface Plasmon

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