Intensive linear and nonlinear optical studies of thermally evaporated amorphous thin Cu-Ge-Se-Te films

•Novel a-Cu-Ge-Se-Te (0 ≤ x ≤ 20 at.%) thermally evaporated thin films were prepared.•Optical constants and other parameters were studied using T, R, and A-spectra.•Dispersion energy and parameters were deduced using WDD and Sellmeier postulate.•Dielectric constants, energy loss functions and non-li...

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Published in:Journal of non-crystalline solids Vol. 586; p. 121563
Main Author: Hassanien, Ahmed Saeed
Format: Journal Article
Language:English
Published: Elsevier B.V 15.06.2022
Subjects:
Amorphous films
Electronic polarizability
Non-linear optical parameters
Optical constants
Optical dispersion energies and parameters
Thermal evaporation technique
Optical dispersion energies and parameters
Non-linear optical parameters
Thermal evaporation technique
Amorphous films
Optical constants
Electronic polarizability
ISSN:0022-3093, 1873-4812
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Abstract •Novel a-Cu-Ge-Se-Te (0 ≤ x ≤ 20 at.%) thermally evaporated thin films were prepared.•Optical constants and other parameters were studied using T, R, and A-spectra.•Dispersion energy and parameters were deduced using WDD and Sellmeier postulate.•Dielectric constants, energy loss functions and non-linear parameters were studied.•The studied dielectric and optoelectronic parameters depend strongly upon the photon wavelength and Cu-content. This article is devoted to completing the study of linear and nonlinear optical characteristics of thermally evaporated a-CuxGe20-xSe40Te40, CGST, (0 ≤ x ≤ 20 at.%) thin films. The film thickness and rate of deposition were fixed in 2000 Å and 100 Å/s, respectively. Optical constants of CGST-films have been deduced from spectrophotometric measurements in the spectral range 300nm-2500 nm. The VB and CB potentials have been determined; their values increase from 0.344 eV to 0.404 eV for the CB, while increases from (-0.864 eV) to (-0.641 eV) for VB, as Cu-percentage increases. Wemple-DiDomenico single oscillator model is applied to obtain dispersion energies and parameters. The single oscillator energy decreases from 2.411 eV to 2.232 eV, while the dispersion energy increases from 14.974 eV to 20.763 eV, as Cu-ration increases. Many other important optoelectrical and dielectric parameters have also been discussed, like static refractive index, average oscillator wavelength, oscillator-length strength parameters. The surface and volume energy loss functions, optical complex conductivity (real and imaginary parts), electronic polarizability, and some nonlinear optical parameters are also well-discussed. Total electronic polarizability values increase from 4.560 Å to 3.088 Å, while the plasma frequency increases from 4.200×1014 Hz to 3.970×1014 Hz. All mapped parameters have been discussed and linked to each other, as well as studying their dependence on Cu-ratio.
AbstractList •Novel a-Cu-Ge-Se-Te (0 ≤ x ≤ 20 at.%) thermally evaporated thin films were prepared.•Optical constants and other parameters were studied using T, R, and A-spectra.•Dispersion energy and parameters were deduced using WDD and Sellmeier postulate.•Dielectric constants, energy loss functions and non-linear parameters were studied.•The studied dielectric and optoelectronic parameters depend strongly upon the photon wavelength and Cu-content. This article is devoted to completing the study of linear and nonlinear optical characteristics of thermally evaporated a-CuxGe20-xSe40Te40, CGST, (0 ≤ x ≤ 20 at.%) thin films. The film thickness and rate of deposition were fixed in 2000 Å and 100 Å/s, respectively. Optical constants of CGST-films have been deduced from spectrophotometric measurements in the spectral range 300nm-2500 nm. The VB and CB potentials have been determined; their values increase from 0.344 eV to 0.404 eV for the CB, while increases from (-0.864 eV) to (-0.641 eV) for VB, as Cu-percentage increases. Wemple-DiDomenico single oscillator model is applied to obtain dispersion energies and parameters. The single oscillator energy decreases from 2.411 eV to 2.232 eV, while the dispersion energy increases from 14.974 eV to 20.763 eV, as Cu-ration increases. Many other important optoelectrical and dielectric parameters have also been discussed, like static refractive index, average oscillator wavelength, oscillator-length strength parameters. The surface and volume energy loss functions, optical complex conductivity (real and imaginary parts), electronic polarizability, and some nonlinear optical parameters are also well-discussed. Total electronic polarizability values increase from 4.560 Å to 3.088 Å, while the plasma frequency increases from 4.200×1014 Hz to 3.970×1014 Hz. All mapped parameters have been discussed and linked to each other, as well as studying their dependence on Cu-ratio.
ArticleNumber 121563
Author Hassanien, Ahmed Saeed
Author_xml – sequence: 1
  givenname: Ahmed Saeed
  orcidid: 0000-0002-4605-9329
  surname: Hassanien
  fullname: Hassanien, Ahmed Saeed
  email: a.s.hassanien@gmail.com, ahmed.hassanien@feng.bu.edu.eg
  organization: Engineering Mathematics and Physics Department, Faculty of Engineering at Shoubra, Benha University, 11629, Egypt
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Keywords Optical dispersion energies and parameters
Non-linear optical parameters
Thermal evaporation technique
Amorphous films
Optical constants
Electronic polarizability
Language English
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SSID ssj0000738
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Snippet •Novel a-Cu-Ge-Se-Te (0 ≤ x ≤ 20 at.%) thermally evaporated thin films were prepared.•Optical constants and other parameters were studied using T, R, and...
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elsevier
SourceType Enrichment Source
Index Database
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StartPage 121563
SubjectTerms Amorphous films
Electronic polarizability
Non-linear optical parameters
Optical constants
Optical dispersion energies and parameters
Thermal evaporation technique
Title Intensive linear and nonlinear optical studies of thermally evaporated amorphous thin Cu-Ge-Se-Te films
URI https://dx.doi.org/10.1016/j.jnoncrysol.2022.121563
Volume 586
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