Buket Akin scite author profile

All‐dielectric metamaterials that exhibit broadband absorption of infrared (IR) radiation are promising platforms for the development of modern and applied nanophotonic technologies ranging from precise biosensing to high‐resolution imaging and high photon‐yield light detection. Herein, bulk meta‐absorbers comprising dielectric layers to provide broadband absorption of mid‐IR light are structured and studied. Through computational investigations and experimental assessments, the geometric parameters of the metastructure are judiciously selected and the peak of absorption is tuned to encompass the mid‐wave IR (MWIR) to long‐wave IR (LWIR) wavelengths, where absorbance of over ≈95% is achieved in the conducted analyses. These results are obtained using numerical optimization to achieve the highest absorption peak values. Thus, based on the mechanistic understanding of the conducted study, the reported percentage is the highest possible absorption efficiency obtained by the absorber metastructure. Importantly, the projected meta‐absorber is polarization insensitive and performs consistently over a wide range of incidence angles. The engineered multilayer architecture based on artificial media provides new possibilities for the broadband manipulation and control of the IR light.

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A comparison electric-dielectric features of Al/p-Si (MS) and Al/ (Al2O3:PVP)/p-Si (MPS) structures using voltage–current (V–I) and frequency–impedance (f–Z) measurements

Akin

Farazin

Altındal

et al. 2022

J Mater Sci: Mater Electron

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Utilization of Al₂O₃/PVP nanocomposite as an interfacial layer for Schottky structures

Akin

Pirgholi‐Givi

Farazin

et al. 2019

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Propagation of hyperbolic sinusoidal Gaussian beam in jet engine induced turbulence

Bayraktar

Akin²,

Işık³

2022

Opt Quant Electron

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This paper investigates beam evolution and beam sizes variation of hyperbolic sinusoidal Gaussian (HSG) beam propagating in jet engine exhaustinduced turbulence. We nd the received eld by solving Huygens-Fresnel integral with a relevant power spectrum. Our results reveal that HSG loses its initial pro le until 100m. Besides, beam with low displacement parameter value is more resistive against turbulence. In terms of beam size, beams with low Gaussian source size expand less as compared to the beams with larger Gaussian source size. In the light of our ndings, optical systems in aircrafts like directed infrared counter measure (DIRCM) and laser designators can be developed.

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Buket Akin

On the frequency and voltage-dependent main electrical parameters of the Au/ZnO/n-GaAs structures at room temperature by using various methods

All‐Dielectric Fabry–Pérot Cavity Design for Spectrally Selective Mid‐Infrared Absorption

A comparison electric-dielectric features of Al/p-Si (MS) and Al/ (Al2O3:PVP)/p-Si (MPS) structures using voltage–current (V–I) and frequency–impedance (f–Z) measurements

Utilization of Al₂O₃/PVP nanocomposite as an interfacial layer for Schottky structures

Propagation of hyperbolic sinusoidal Gaussian beam in jet engine induced turbulence

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Buket Akin

On the frequency and voltage-dependent main electrical parameters of the Au/ZnO/n-GaAs structures at room temperature by using various methods

All‐Dielectric Fabry–Pérot Cavity Design for Spectrally Selective Mid‐Infrared Absorption

A comparison electric-dielectric features of Al/p-Si (MS) and Al/ (Al2O3:PVP)/p-Si (MPS) structures using voltage–current (V–I) and frequency–impedance (f–Z) measurements

Utilization of Al2O3/PVP nanocomposite as an interfacial layer for Schottky structures

Propagation of hyperbolic sinusoidal Gaussian beam in jet engine induced turbulence

Contact Info

Product

Resources

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Utilization of Al₂O₃/PVP nanocomposite as an interfacial layer for Schottky structures