Amorphous WO3 thin films designed as gigahertz/terahertz dielectric lenses

Qasrawi, A.F.; Alrub, Shatha N. Abu; Daragme, Rana B.

doi:10.1007/s11082-022-03708-6

Cited by 10 publications

(28 citation statements)

References 44 publications

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“…The absorption coefficient increases with decreasing incident photon energy as a result of free absorption. For thin films of thickness of 1.0 m m free carrier absorption in the infrared range (1.74-1.14 eV) of light was previously observed in amorphous 3 thin films [10]. In the currently studied films (d 300 = nm) this phenomenon appears in the spectral range of 3.02-1.32 eV.…”

Section: Optical Spectroscopy Analysessupporting

confidence: 48%

“…For this purpose we deposited a 300 nm thick WO 3 films onto semitransparent lead films of thicknesses of 100 nm and study their optoelectronic performances as gigahertz/ terahertz filters usable in communication technology. In our previous investigations we have grown amorphous layers of WO 3 onto glass substrates and studied their properties as dielectric lenses [10]. WO 3 thin films of thicknesses of 1.0 m m were measured and found sensitive to light signals in the ultraviolet, visible and infrared ranges of light showing terahertz cutoff frequency values in the range of 0.70-40.0 THz.…”

Section: Introductionmentioning

confidence: 99%

“…For this reason the current work targets enhancing the performance of WO 3 film as light absorbers, terahertz band filters and as microwave resonators so that it fits well with 5 G requirements. Previously WO 3 films coated onto glass substrates showed continuously varying terahertz cutoff frequency spectra based on the energy of the incident light signal [10]. From practical point of view, such behavior forces selection of monochromatic light signals to fix the value of terahertz cutoff frequency values.…”

Section: Introductionmentioning

confidence: 99%

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Lead-tungsten oxide interfaces designed as gigahertz/terahertz filters

Alkhamisi¹,

Qasrawi

Khanfar

2023

Phys. Scr.

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Herein amorphous tungsten oxide thin films of thicknesses of 300 nm are coated onto semitransparent Pb films (100 nm) by the thermal evaporation technique under a vacuum pressure of 10-5 mbar. Optical investigations in these films have shown that Pb nanosheets enhances the light absorbability in the visible and infrared ranges of light without significant change in the energy band gap value. In addition deep analyses of the optical conductivity and terahertz cutoff frequency spectra of the Pb/WO3 optical filters revealed that the cutoff frequency value in the visible range of light is invariant with light signal energy indicating the possibly of filtering none-monochromatic light signals. On the other hand imposing an ac signal between the terminals of Pb/WO3/Au devices has proofed the ability of the device to perform as low pass and as band stop filters workable in the microwave frequency domain. The microwave cutoff frequency for this device reached ~9 GHz nominating it for use in 5G mobile technology. The current study showed that coating of tungsten oxide onto semitransparent Pb substrate and coverage small area of the top contact with Au can allow functioning the device as gigahertz/ terahertz band filters suitable for communication technology.

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Section: Optical Spectroscopy Analysessupporting

confidence: 48%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Lead-tungsten oxide interfaces designed as gigahertz/terahertz filters

Alkhamisi¹,

Qasrawi

Khanfar

2023

Phys. Scr.

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“…[25] The so called Urbach tails or band tails existed due to presence of more localized states in forbidden band of the films. [25][26][27] Urbach energy provide information about the disorder or defects: Urbach values can give insights into the degree of disorder or the presence of defects in a material. Higher Urbach energies are associated with higher levels of disorder, defects, or impurities, which can affect the material's optical and electronic properties.…”

Section: Resultsmentioning

confidence: 99%

“…To gain information about the nature of the optical transitions in the films Tauc's equation (

{( {\alpha E} )^n} = {B^n}\;( {{E} - {E_{\mathrm{g}}}} )

, B is Tauc parameter) was employed. [ 25–27 ] The fitting of the equation is illustrated in Figure 2d. As can be seen from the figure the best fit which linearize most of the experimental absorption coefficient data in the sharp absorption coefficient region (4.17–3.49 eV) is related to the indirect allowed transitions type (

n\; = \frac{1}{2}\;

).…”

Section: Resultsmentioning

confidence: 99%

Growth and Characterization of Lanthanum Germanide Thin Films by the Thermal Evaporation Technique

Alkhamisi

Qasrawi

Khanfar

2023

Cryst. Res. Technol.

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Lanthanum germanide (La6Ge) thin films are successfully fabricated using the thermal evaporation technique under a vacuum pressure of 10−5 mbar. The resulting films display an orthorhombic structure, characterized by lattice parameters of a = 8.725 Å, b = 8.063 Å, and c = 5.569 Å. Optical analysis of the La6Ge thin films reveal their high transparency, with an energy bandgap of 3.75±0.04 eV. The bandgap exhibits indirect allowed transitions and featured energy band tails with widths measuring (1.64±0.14) eV. In addition, dielectric dispersion analyses indicate the presence of two dominant dielectric resonance peaks centered at 3.15 and 2.08 eV. Moreover, the La6Ge films demonstrate a terahertz (THz) cutoff frequency of 1.0 THz when illuminated with infrared and visible light. This cutoff frequency increases to 45.6 THz in the ultraviolet range. Furthermore, by utilizing the Drude–Lorentz method, the investigation of optical conductivity parameters reveals that the lanthanum germanide optical filters can achieve free hole density and drift mobility values of 14.44 cm2 V−1 s−1 and 2.8×1018 cm−3, respectively, under infrared light irradiation. The outstanding optical and dielectric properties exhibited by the La6Ge thin films make them excellent candidates for highly transparent optical filters suitable for terahertz technology.

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Enhanced Performance of Fe/WO₃ Terahertz Dielectric Lenses

Khanfar,

Qasrawi

2024

Cryst. Res. Technol.

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Herein transparent iron nanosheets deposited by the ionic coating technique onto glass and WO3 dielectric lenses are studied and characterized. The thickness of Fe nanosheets is varied in the range of 70–350 nm. It is observed that the transmittance and reflectance of the Fe nanosheets are highly affected by the layer roughness. Coating of iron nanosheets onto WO3 dielectric lenses increases the light absorption of WO3 by more than 240 times and red‐shifts the energy bandgap. Remarkable enhancements in the dielectric constant and in the optical conductivity are achieved via Fe coatings. In addition, iron coated dielectric lenses show higher terahertz cutoff limits varying in the range of 1.0–30 THz. Iron nanosheets remarkably increase the free charge carrier density and plasmon frequency in the infrared range of light. Moreover, the temperature dependent electrical conductivity shows high temperature stability and an increased electrical conductivity by more than 7 orders of magnitude by coating WO3 with 70 nm thick Fe nanosheets. The stability of the electrical conductivity at low temperatures and the wide range of terahertz cutoff limits in addition to the well‐enhanced light absorbability makes the iron coated tungsten oxide dielectric lenses promising for multifunction optoelectronic applications.

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Amorphous WO3 thin films designed as gigahertz/terahertz dielectric lenses

Cited by 10 publications

References 44 publications

Lead-tungsten oxide interfaces designed as gigahertz/terahertz filters

Lead-tungsten oxide interfaces designed as gigahertz/terahertz filters

Growth and Characterization of Lanthanum Germanide Thin Films by the Thermal Evaporation Technique

Enhanced Performance of Fe/WO₃ Terahertz Dielectric Lenses

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Amorphous WO3 thin films designed as gigahertz/terahertz dielectric lenses

Cited by 10 publications

References 44 publications

Lead-tungsten oxide interfaces designed as gigahertz/terahertz filters

Lead-tungsten oxide interfaces designed as gigahertz/terahertz filters

Growth and Characterization of Lanthanum Germanide Thin Films by the Thermal Evaporation Technique

Enhanced Performance of Fe/WO3 Terahertz Dielectric Lenses

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Product

Resources

About

Enhanced Performance of Fe/WO₃ Terahertz Dielectric Lenses