Maria Zhukova scite author profile

The values of the nonlinear refractive index coefficient for various materials in the terahertz frequency range exceed the ones in both visible and NIR ranges by several orders of magnitude. We report the direct measurement of the nonlinear refractive index coefficient of liquid water by using the Z-scan method with broadband pulsed THz beam. Our experimental result shows that nonlinear refractive index coefficient in water is positive and can be as large as 3.5×10 −10 cm 2 /W in the THz frequency range, which exceeds the ones for the visible and NIR ranges by 6 orders of magnitude.

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Non-aqueous solution-processed phosphorene by controlled low-potential electrochemical exfoliation and thin film preparation

Kovalska

Hartman

Antonatos

et al. 2020

Nanoscale

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Giant Third-Order Nonlinear Response of Liquids at Terahertz Frequencies

et al. 2021

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Light management design in ultra-thin chalcopyrite photovoltaic devices by employing optical modelling

Kovačič

Krč

Lipovšek

et al. 2019

Solar Energy Materials and Solar Cells

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In ultra-thin chalcopyrite solar cells and photovoltaic modules, efficient light management is required to increase the photocurrent and to gain in conversion efficiency. In this work we employ optical modelling to investigate different optical approaches and quantify their potential improvements in the short-circuit current density of Cu(In, Ga)Se2 (CIGS) devices. For structures with an ultra-thin (500 nm) CIGS absorber, we study the improvements related to the introduction of (i) highly reflective metal back reflectors, (ii) internal nano-textures applied to the substrate and (iii) external micro-textures by using a light management foil. In the analysis we use CIGS devices in a PV module configuration, thus, solar cell structure including encapsulation and front glass. A thin Al2O3 layer was considered in the structure at the rear side of CIGS for passivation and diffusion barrier for metal reflectors. We show that not any individual aforementioned approach is sufficient to compensate for the short circuit drop related to ultra-thin absorber, but a combination of a highly reflective back contact and textures (internal or external) is needed to obtain and also exceed the short-circuit current density of a thick (1800 nm) CIGS absorber.

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Maria Zhukova

Optimization of Back Contact Grid Size in Al₂O₃-Rear-Passivated Ultrathin CIGS PV Cells by 2-D Simulations

High Kerr nonlinearity of water in THz spectral range

Non-aqueous solution-processed phosphorene by controlled low-potential electrochemical exfoliation and thin film preparation

Giant Third-Order Nonlinear Response of Liquids at Terahertz Frequencies

Light management design in ultra-thin chalcopyrite photovoltaic devices by employing optical modelling

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Maria Zhukova

Optimization of Back Contact Grid Size in Al2O3-Rear-Passivated Ultrathin CIGS PV Cells by 2-D Simulations

High Kerr nonlinearity of water in THz spectral range

Non-aqueous solution-processed phosphorene by controlled low-potential electrochemical exfoliation and thin film preparation

Giant Third-Order Nonlinear Response of Liquids at Terahertz Frequencies

Light management design in ultra-thin chalcopyrite photovoltaic devices by employing optical modelling

Contact Info

Product

Resources

About

Optimization of Back Contact Grid Size in Al₂O₃-Rear-Passivated Ultrathin CIGS PV Cells by 2-D Simulations