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224 results on '"Drouard, Emmanuel"'

1. Long-range ballistic propagation of 80$\%$-excitonic-fraction polaritons in a perovskite metasurface at room temperature

Author

Dang, Nguyen Ha My, Zanotti, Simone, Drouard, Emmanuel, Chevalier, Céline, Trippé-Allard, Gaëlle, Deleporte, Emmanuelle, Seassal, Christian, Gerace, Dario, and Nguyen, Hai Son

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

Exciton-polaritons, hybrid light-matter elementary excitations arising from the strong coupling regime between excitons in semiconductors and photons in photonic nanostructures, offer a fruitful playground to explore the physics of quantum fluids of light as well as to develop all-optical devices. However, achieving room temperature propagation of polaritons with a large excitonic fraction, which would be crucial, e.g., for nonlinear light transport in prospective devices, remains a significant challenge. } Here we report on experimental studies of exciton-polariton propagation at room temperature in resonant metasurfaces made from a sub-wavelength lattice of perovskite pillars. Thanks to the large Rabi splitting, an order of magnitude larger than the optical phonon energy, the lower polariton band is completely decoupled from the phonon bath of perovskite crystals. The long lifetime of these cooled polaritons, in combination with the high group velocity achieved through the metasurface design, enables long-range propagation regardless of the polariton excitonic fraction. Remarkably, we observed propagation distances exceeding hundreds of micrometers at room temperature, even when the polaritons possess a very high excitonic component, approximately {80}$\%$. Furthermore, the design of the metasurface introduces an original mechanism for directing uni-directional propagation through polarization control. This discovery of a ballistic propagation mode, leveraging high-speed cooled polaritons, heralds a promising avenue for the development of advanced polaritonic devices.

Published
2024

2. Nanoimprinted Exciton-Polaritons Metasurfaces: Cost-Effective, Large-Scale, High Homogeneity, and Room Temperature Operation

Author

Dang, Nguyen Ha My, Bouteyre, Paul, Trippé-Allard, Gaëlle, Chevalier, Céline, Deleporte, Emmanuelle, Drouard, Emmanuel, Seassal, Christian, and Nguyen, Hai Son

Subjects
Physics - Optics
Abstract

Exciton-polaritons represent a promising platform that combines the strengths of both photonic and electronic systems for future optoelectronic devices. However, their application is currently limited to laboratory research due to the high cost and complexity of fabrication methods, which are not compatible with the mature CMOS technology developed for microelectronics. In this work, we develop an innovative, low-cost, and CMOS-compatible method for fabricating large surface polaritonic devices. This is achieved by direct patterning of a halide-perovskite thin film via thermal nanoimprint. As a result, we observe highly homogeneous polaritonic modes of quality factor $Q\approx 300$ at room temperature across a centimetric scale. Impressively, the process provides high reproducibility and fidelity, as the same mold can be reused more than 10 times to imprint the perovskite layer on different types of substrates. Our results could pave the way for the production of low-cost integrated polaritonic devices operating at room temperature.

Published
2024

3. Taming Friedrich-Wintgen interference in resonant metasurface: vortex laser emitting at on-demand tilted-angle

Author

Mermet-Lyaudoz, Raphael, Symond, Clémentine, Berry, Florian, Drouard, Emmanuel, Chevalier, Céline, Trippé-Allard, Gaëlle, Deleporte, Emmanuelle, Bellessa, Joel, Seassal, Christian, and Nguyen, Hai Son

Subjects
Physics - Optics
Abstract

Friedrich-Wintgen (FW) interference is an atypical coupling mechanism that grants loss exchange between leaky resonances in non-Hermitian classical and quantum systems. Intriguingly, such an mechanism makes it possible for destructive interference scenario in which a radiating wave becomes a bound state in the continuum (BIC) by giving away all of its losses. Here we propose and demonstrate experimentally an original concept to tailor FW-BICs as polarization singularity at on-demand wavevectors in optical metasurface. As a proof-of-concept, using hybrid organic-inorganic halide perovskite as active material, we empower this novel polarization singularity to obtain lasing emission exhibiting both highly directional emission at oblique angles and polarization vortex in momentum space. Our results pave the way to steerable coherent emission with tailored polarization pattern for applications in optical communication/manipulation in free-space, high-resolution imaging /focusing and data storage.

Published
2022
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4. Light Management in Perovskite Photovoltaic Solar Cells: a perspective

Author

Berry, Florian, Mermet-Lyaudoz, Raphaël, Davila, Jose Maria Cuevas, Djemmah, Djihad Amina, Nguyen, Hai Son, Seassal, Christian, Fourmond, Erwann, Chevalier, Céline, Amara, Mohamed, and Drouard, Emmanuel

Subjects
Physics - Optics, Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Light Management (LM) is essential for metal-halide perovskite solar cells in their race for record performance. In this review, criteria on materials, processes and photonic engineering are established such as to enhance mainly the short circuit current density, towards high energy yields. These criteria are used to analyse a large panel of solutions envisaged in the literature for single junction cells. Moreover, a perspective based on rigorous electromagnetic simulations performed on various comparable structures is proposed in order to clarify the conclusions, and to pave the way to further performance enhancement in the case of all-perovskite, two-terminal tandem cells.

Published
2022

5. Magic configurations in Moir\'e Superlattice of Bilayer Photonic crystal: Almost-Perfect Flatbands and Unconventional Localization

Author

Nguyen, Dung Xuan, Letartre, Xavier, Drouard, Emmanuel, Viktorovitch, Pierre, Nguyen, H. Chau, and Nguyen, Hai Son

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate the physics of photonic band structures of the moir\'e patterns that emerged when overlapping two uni-dimensional (1D) photonic crystal slabs with mismatched periods. The band structure of our system is a result of the interplay between intra-layer and inter-layer coupling mechanisms, which can be fine-tuned via the distance separating the two layers. We derive an effective Hamiltonian that captures the essential physics of the system and reproduces all numerical simulations of electromagnetic solutions with high accuracy. Most interestingly, \textit{magic distances} corresponding to the emergence of photonic flatbands within the whole Brillouin zone of the moir\'e superlattice are observed. We demonstrate that these flatband modes are tightly localized within a moir\'e period. Moreover, we suggest a single-band tight-binding model that describes the moir\'e minibands, of which the tunnelling rate can be continuously tuned via the inter-layer strength. Our results show that the band structure of bilayer photonic moir\'e can be engineered in the same fashion as the electronic/excitonic counterparts. It would pave the way to study many-body physics at photonic moir\'e flatbands and novel optoelectronic devices., Comment: 6 pages + Supplement. Comments are welcome!

Published
2021
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7. Tailoring dispersion of room temperature exciton-polaritons with perovskite-based subwavelength metasurfaces

Author

Dang, Nguyen Ha My, Gerace, Dario, Drouard, Emmanuel, Trippé-Allard, Gaëlle, Lédée, Ferdinand, Mazurczyk, Radoslaw, Deleporte, Emmanuelle, Seassal, Christian, and Nguyen, Hai Son

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

Exciton-polaritons, elementary excitations arising from the strong coupling regime between photons and excitons in insulators or semiconductors, represent a promising platform for studying quantum fluids of light and realizing prospective all-optical devices. Among different materials for room temperature polaritonic devices, two-dimensional (2D) layered perovskites have recently emerged as one of the promising candidates thanks to their prominent excitonic features at room temperature. Here we report on the experimental demonstration of exciton-polaritons at room temperature in resonant metasurfaces made from a subwavelength 2D lattice of perovskite pillars. These metasurfaces are obtained via spincoating, followed by crystallization of the perovskite solution in a pre-patterned glass backbone. The strong coupling regime is revealed by both angular-resolved reflectivity and photoluminescence measurements, showing anticrossing between photonic modes and the exciton resonance with a Rabi splitting in the 200 meV range. Moreover, we show that the polaritonic dispersion can be engineered by tailoring the photonic Bloch mode to which perovskite excitons are coupled. Linear, parabolic, and multi-valley polaritonic dispersions are experimentally demonstrated. All of our results are perfectly reproduced by both numerical simulations based on a rigorous coupled wave analysis and an elementary model based on a quantum theory of radiation-matter interaction. Our results suggest a new approach to study exciton-polaritons and pave the way towards large-scale and low-cost integrated polaritonic devices operating at room temperature.

Published
2020
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8. Realization of Bound state In the Continuum induced by vertical symmetry breaking in photonic lattice

Author

Mermet-Lyaudoz, Raphael, Dubois, Florian, Hoang, Ngoc-Vu, Drouard, Emmanuel, Berguiga, Lotfi, Seassal, Christian, Letartre, Xavier, Viktorovitch, Pierre, and Nguyen, Hai Son

Subjects
Physics - Optics
Abstract

We demonstrate experimentally a new type of Bound state In the Continuum (BIC) which is induced by the vertical symmetry breaking of a photonic crystal slab. Such BIC emerges from the hybridization between Bloch resonances of opposite parities once the vertical symmetry is broken, and is observed in the vicinity of the anticrossing point at the lower hybrid band of the energy-momentum diagram. All experimental results are nicely reproduced by numerical simulations, and in good agreement with an analytical model based on Friedrich-Wintgen framework. Together with the possibility of dispersion engineering by vertical symmetry breaking, our results open the way to tailor photonic states in the entire complex plane to study non-hermitian photonics.

Published
2019

10. Absorption enhancement in photonic crystal thin films by pseudo disordered perturbations

Author

Peretti, Romain, Gomard, Guillaume, Lalouat, Loïc, Seassal, Christian, and Drouard, Emmanuel

Subjects
Physics - Optics
Abstract

The effects resulting from the introduction of a controlled perturbation in a single pattern membrane on its absorption are first studied and then analyzed on the basis of band folding considerations. The interest of this approach for photovoltaic applications is finally demonstrated by overcoming the integrated absorption of an optimized single pattern membrane through the introduction of a proper pseudo disordered perturbation., Comment: MRS Fall Meeting 2013, Boston : United States (2013)

Published
2014
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11. Blue light absorption enhancement based on vertically channelling modes in nano-holes arrays

Author

Gomard, Guillaume, Peretti, Romain, Callard, Ségolène, Meng, Xianqin, Artinyan, Rémy, Deschamps, Thierry, Cabarrocas, Pere Roca I., Drouard, Emmanuel, and Seassal, Christian

Subjects
Physics - Optics
Abstract

We investigate the specific optical regime occurring at short wavelengths, in the high absorption regime, in silicon thin-films patterned by periodically arranged nano-holes. Near-field scanning optical microscopy indicates that the incoming light is coupled to vertically channelling modes. Optical modelling and simulations show that the light, travelling inside the low-index regions, is absorbed at the direct vicinity of the nano-holes sidewalls. This channelling regime should be taken into account for light management in optoelectronic devices.

Published
2014
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12. Down Converter Device Combining Rare-Earth Doped Thin Layer and Photonic Crystal for c-Si Based Solar Cell

Author

Deschamps, Thierry, Drouard, Emmanuel, Peretti, Romain, Lalouat, Loïc, Fourmond, Erwann, Fave, Alain, Guille, Antoine, Pereira, António, Moine, Bernard, and Seassal, Christian

Subjects
Physics - Optics
Abstract

The aim of the study is to develop ultra-compact structures enabling an efficient conversion of single high energy photon (UV) to two lower energy photons (IR). The proposed structure combines rare-earths doped thin layer allowing the down-conversion process with a photonic crystal (PhC), in order to control and enhance the down-conversion using optical resonances. On the top of the rare-earths doped layer, a silicon nitride (SiN) 2D planar PhC is synthesized. For that, SiN is first deposited by PECVD. After holographic lithography and reactive ion etching, a periodic square lattice of holes is generated on the SiN layer. The PhC topographical parameters as well as the layers thickness are optimized using Finite-Difference-Time-Domain simulations. The design and realization of such PhC-assisted down-converter structures is presented. Optical simulations demonstrate that the PhC leads to the establishment of resonant modes located in the underneath doped layer, allowing a drastic enhancement of the absorption of the rare-earth ions without disturbing the transmission in the visible and near-IR parts of the spectrum, hence demonstrating the relevance of such an approach., Comment: 28th European Photovoltaic Solar Energy Conference and Exhibition, Paris : France (2013)

Published
2013
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13. Absorption control in pseudodisordered photonic-crystal thin film

Author

Peretti, Romain, Gomard, Guillaume, Lalouat, Loïc, Seassal, Christian, and Drouard, Emmanuel

Subjects
Physics - Optics
Abstract

The positive effects of various perturbations introduced in a bidimensional photonic-crystal patterned membrane on its integrated absorption are investigated numerically and theoretically. Two phenomena responsible for the enhanced absorption observed are identified: an increase of the spectral density of modes, obtained thanks to folding mechanisms in the reciprocal lattice, and a better coupling of the modes with the incident light. By introducing a proper pseudodisordered pattern, we show that those two effects can be exploited so as to overcome the integrated absorption obtained for an optimized and single pattern unit cell photonic crystal.

Published
2013
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14. Modal approach for tailoring the absorption in a photonic crystal membrane

Author

Peretti, Romain, Gomard, Guillaume, Seassal, Christian, Letartre, Xavier, and Drouard, Emmanuel

Subjects
Physics - Optics
Abstract

In this paper, we propose a method for tailoring the absorption in a photonic crystal membrane. For that purpose, we first applied Time Domain Coupled Mode Theory to such a subwavelength membrane and demonstrated that 100% resonant absorption can be reached even for a symmetric membrane, if degenerate modes are involved. Design rules were then derived from this model in order to tune the absorption. Subsequently, Finite Difference Time Domain simulations were used as a proof of concept and carried out on a low absorbing material (extinction coefficient=10-2) with a high refractive index corresponding to the optical indices of amorphous silicon at around 720 nm. In doing so, 85% resonant absorption was obtained, which is significantly higher than the commonly reported 50% maximum value. Those results were finally analyzed and confronted to theory so as to extend our method to other materials, configurations and applications.

Published
2013
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15. Absorption enhancement in amorphous silicon photonic crystals for thin film photovoltaic solar cells

Author

Daif, Ounsi El, Drouard, Emmanuel, Park, Yeonsang, Fave, Alain, Kaminski, Anne, Lemiti, Mustapha, Letartre, Xavier, Viktorovitch, Pierre, Ahn, Sungmo, Jeon, Heonsu, and Seassal, Christian

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on very high enhancement of thin layer's absorption through band-engineering of a photonic crystal structure. We realized amorphous silicon (aSi) photonic crystals, where slow light modes improve absorption efficiency. We show through simulation that an increase of the absorption by a factor of 1.5 is expected for a film of aSi. The proposal is then validated by an experimental demonstration, showing an important increase of the absorption of a layer of aSi over a spectral range of 0.32-0.76 microns., Comment: 4 pages, 5 figures

Published
2009

16. Enhanced Light Trapping in GaAs/TiO2-Based Photocathodes for Hydrogen Production

Author

Dursap, Thomas, primary, Fadel, Mariam, additional, Regreny, Philippe, additional, Tapia Garcia, Cristina, additional, Chevalier, Céline, additional, Nguyen, Hai Son, additional, Drouard, Emmanuel, additional, Brottet, Solène, additional, Gendry, Michel, additional, Danescu, Alexandru, additional, Koepf, Matthieu, additional, Artero, Vincent, additional, Bugnet, Matthieu, additional, and Penuelas, José, additional

Published
2023
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18. A fully coupled opto-electro-thermal model to investigate silicon solar cells under real operating conditions

Author

Dumoulin Jérémy, Drouard Emmanuel, and Amara Mohamed

Subjects
silicon solar cell, real operating conditions, multiphysics modelling, thermal management, finite-element simulation, Renewable energy sources, TJ807-830
Abstract

In this work, a fully coupled opto-electro-thermal model for crystalline silicon solar cells is presented. Based on a detailed set of material properties, the developed model allows us to predict and analyse the solar cell behaviour under real operating conditions in a standalone framework. The results show the potential of our model to study the influence of the cell design on its real operating performance, thus giving a new opportunity for silicon solar cell optimisation. Specifically, the doping level is found to impact both the operating temperature and the temperature coefficient, showing that two cells with the same power conversion efficiency in standard test conditions can have a very different efficiency under real operating conditions. We also demonstrate the model capability to assess in detail the influence of environmental conditions, such as the solar spectrum, which also impacts the temperature coefficient. As the latter is not required by our material-based approach but is a simulation output, this work opens the way to more reliable outdoor prediction. Moreover, the various perspectives and challenges associated with the proposed detailed multiphysics simulation of solar cells are discussed, providing important guidelines for future studies.

Published
2022
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24. Halide perovskites for photonic applications

Author

Chamarro, Maria, Mayer, Cédric R., Pauporté, Thierry, Drouard, Emmanuel, Nguyen, Hai Son, Seassal, Christian, Böhme, Simon Christian, Kovalenko, Maksym V., and Deleporte, Emmanuelle

Subjects
Aerospace Engineering
Abstract

Halide perovskites are a new class of semiconductors showing an incredible set of physical properties wellsuited for a large range of opto-electronic applications. These physical properties can be easily tuned and adapted to the intended application by modifying the composition and the size of the material. Additionally, these materials are solution-processed at low temperature and ambient pressure, and contain earth-abundant elements. However, some important challenges remain: the presence of lead and the stability. In this paper, we present some outlines of these materials in several fields of opto-electronics, i. e. photovoltaics and light-emitting devices, such as LEDs, single-photon sources, lasers, and photonics., Photoniques, 116, ISSN:1629-4475, ISSN:2269-8418

Published
2022

26. Transient thermal conductivity in PECVD SiN x at high temperature: the thermal signature of an on-going irreversible modification

Author

Hadi, M, Pailhès, S, Debord, R, Benamrouche, A, Drouard, Emmanuel, Gehin, Thomas, Botella, Claude, Leclercq, Jean -Louis, Noe, P, Fillot, F, Giordano, V, Institut Lumière Matière [Villeurbanne] (ILM), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), INL - Ingénierie et conversion de lumière (i-Lum) (INL - I-Lum), Institut des Nanotechnologies de Lyon (INL), École Centrale de Lyon (ECL), Université de Lyon-Université de Lyon-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-École Supérieure de Chimie Physique Électronique de Lyon (CPE)-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-École Centrale de Lyon (ECL), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS), INL - Dispositifs pour la Santé et l’Environnement (INL - DSE), INL - Matériaux Fonctionnels et Nanostructures (INL - MFN), CEA-Leti, Grenoble Alpes University, Funding: this work was supported by the Idex Lyon Scientific Breakthrough program [IPPON project] and the Agence National de la Recherche [MAPS-ANR-20-CE05-0046]., IDEX Lyon Scientific Breakthrough: IPPON, and ANR-20-CE05-0046,MAPS,Approche multi-echelle pour une comprehension microscopique du transport thermique dans les nanocomposites(2020)

Subjects
silicon nitride, thin film, PECVD, thermal conductivity, thermoreflectance, [PHYS.COND]Physics [physics]/Condensed Matter [cond-mat], hydrogen desorption
Abstract

International audience; PECVD amorphous silicon nitride (a-SiN x) films are largely used into the dielectric stacks of integrated circuits, as passivation or capping layers, and are today an important alternative to silicon for integrated nonlinear optical applications, such as waveguides. In such applications, a-SiN x presents also the advantage of having a very low thermal conductivity, about 0.7 W/m K at room temperature, which is of relevance, as such films contribute to the thermal balance of the devices, and thus play a role in solving the thermal management problem in microelectronics. The deposition parameters, and more specifically

Published
2022

31. Light Management in Perovskite Photovoltaic Solar Cells: A Perspective

Author

Berry, Florian, primary, Mermet‐Lyaudoz, Raphaël, additional, Cuevas Davila, Jose Maria, additional, Djemmah, Djihad Amina, additional, Nguyen, Hai Son, additional, Seassal, Christian, additional, Fourmond, Erwann, additional, Chevalier, Céline, additional, Amara, Mohamed, additional, and Drouard, Emmanuel, additional

Published
2022
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35. Realization of Polaritonic Topological Charge at Room Temperature Using Polariton Bound States in the Continuum from Perovskite Metasurface (Advanced Optical Materials 6/2022)

Author

Dang, Nguyen Ha My, primary, Zanotti, Simone, additional, Drouard, Emmanuel, additional, Chevalier, Céline, additional, Trippé‐Allard, Gaëlle, additional, Amara, Mohamed, additional, Deleporte, Emmanuelle, additional, Ardizzone, Vincenzo, additional, Sanvitto, Daniele, additional, Andreani, Lucio Claudio, additional, Seassal, Christian, additional, Gerace, Dario, additional, and Nguyen, Hai Son, additional

Published
2022
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42. Two‐dimensional photonic metasurfaces for slow light‐controlled photocatalysis

Author

Capitolis, Jérôme, primary, Hamandi, Marwa, additional, Hochedel, Marion, additional, El‐Jallal, Said, additional, Drouard, Emmanuel, additional, Chevalier, Céline, additional, Leclercq, Jean‐Louis, additional, Penuelas, José, additional, Dursap, Thomas, additional, Brottet, Solène, additional, Devif, Brice, additional, Nguyen, Hai Son, additional, Berhault, Gilles, additional, Chovelon, Jean‐Marc, additional, Ferronato, Corinne, additional, Guillard, Chantal, additional, Puzenat, Eric, additional, Crespo‐Monteiro, Nicolas, additional, Reynaud, Stephanie, additional, Jourlin, Yves, additional, Bugnet, Matthieu, additional, and Seassal, Christian, additional

Published
2021
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45. [differential]n/[differential]T Measurements performed with guided waves and their application to the temperature sensitivity of wavelength-division multiplexing filters

Author

Drouard, Emmanuel, Huguet-Chantome, Pascal, Escoubas, Ludovic, and Flory, Francois

Subjects
Optical instruments -- Research, Thin films -- Research, Multiplexing -- Equipment and supplies, Astronomy, Physics
Abstract

Measurements of [differential]n/[differential]T of thin films by the m-lines technique are presented. The importance of the substrate material is shown. An example of the wavelength shift of an optical thin-film filter with temperature is studied both theoretically and experimentally. The theoretical wavelength shift of a dense wavelength-division multiplexing filter is discussed. OCIS codes: 310.6860, 350.2460.

Published
2002

46. Theoretical study of amplitude and phase filtering of guided waves

Author

Escoubas, Ludovic, Drouard, Emmanuel, and Flory, Francois

Subjects
Optical instruments -- Research, Computer-aided design -- Research, Waveguides -- Research, Astronomy, Physics
Abstract

The design of integrated optics filters by use of refinement software based on the Abeles thin-film computation method and the film mode matching method is studied. The results obtained with the two computation methods are compared. Good agreement is obtained provided that the fill factor of the guided mode in the component is high and that modal losses between waveguide sections are simulated by absorption with the Abeles computation method. Integrated optics devices that manage either the amplitude of guided waves such as a dense wavelength division multiplexing narrow-bandpass filter and a gain-flattening filter or the phase of guided waves such as a broadband dispersion compensator are presented and their optical performance is discussed. OCIS codes: 230.7390, 130.3120, 130.1750.

Published
2002

49. Two‐dimensional photonic metasurfaces for slow light‐controlled photocatalysis.

Author

Capitolis, Jérôme, Hamandi, Marwa, Hochedel, Marion, El‐Jallal, Said, Drouard, Emmanuel, Chevalier, Céline, Leclercq, Jean‐Louis, Penuelas, José, Dursap, Thomas, Brottet, Solène, Devif, Brice, Nguyen, Hai Son, Berhault, Gilles, Chovelon, Jean‐Marc, Ferronato, Corinne, Guillard, Chantal, Puzenat, Eric, Crespo‐Monteiro, Nicolas, Reynaud, Stephanie, and Jourlin, Yves

Subjects
PHOTOCATALYSIS, OPTICAL properties, WATER electrolysis, ARTIFICIAL photosynthesis, PHOTONICS, TITANIUM dioxide
Abstract

Photocatalysis using semiconductor materials like titania (TiO2) is a key method for environmental purification or solar fuel generation. Nanostructures that maximize incident light absorption are highly desired to enhance depollution rate or solar‐to‐fuel conversion efficiency in limited volumes of catalysts. Here, we report on structural and optical properties of metasurfaces based on a 20 nm thick anatase layer conformally deposited onto a wavelength‐scale two‐dimensional periodic photonic lattice. We investigate the NO degradation using such metasurfaces, and evaluate the impact of the patterning on photocatalytic activities between 340 and 400 nm. In the 380–385 nm range, the mean photochemical efficiency is increased by a factor up to 5.7 compared to flat references, with an overall three‐fold enhancement within the whole spectral range of interest. This approach can be applied to numerous types of systems by varying active materials, leading to substantial improvements in air/water depollution, water splitting or artificial photosynthesis processes. [ABSTRACT FROM AUTHOR]

Published
2022
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