Alain Kattnig scite author profile

Alain Kattnig

5Publications

58Citation Statements Received

32Citation Statements Given

How they've been cited

100

How they cite others

Affiliations

University of Paris-Saclay, Office National d'Études et de Recherches Aérospatiales, Institut Polytechnique de Paris

Publications

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Absorbing metasurface created by diffractionless disordered arrays of nanoantennas

Chevalier

Bouchon

Jaeck

et al. 2015

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We study disordered arrays of metal-insulator-metal nanoantenna in order to create a diffractionless metasurface able to absorb light in the 3–5 μm spectral range. This study is conducted with angle-resolved reflectivity measurements obtained with a Fourier transform infrared spectrometer. A first design is based on a perturbation of a periodic arrangement, leading to a significant reduction of the radiative losses. Then, a random assembly of nanoantennas is built following a Poisson-disk distribution of given density, in order to obtain a nearly perfect cluttered assembly with optical properties of a homogeneous material.

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SIELETERS, an airborne infrared dual-band spectro-imaging system for measurement of scene spectral signatures

Coudrain¹,

Bernhardt²,

Caes³

et al. 2015

Opt. Express

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More and more, hyperspectral images are envisaged to improve the aerial reconnaissance capability of airborne systems, both for civilian and military applications. To confirm the hopes put in this new way of imaging a scene, it is necessary to develop airborne systems allowing the measurement of the spectral signatures of objects of interest in real conditions, with high spectral and spatial resolutions. The purpose of this paper is to present the design and the first in-flight results of the dual-band infrared spectro-imaging system called Sieleters. This system has demonstrated simultaneously a ground sampling distance of 0.5m, associated with a spectral resolution of 11 cm(-1) for the Mid-Wave InfraRed (MWIR) and 5 cm(-1) for the Long-Wave InfraRed (LWIR).

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Demonstration of image-zooming capability for diffractive axicons

Druart¹,

Taboury

Guérineau³

et al. 2008

Opt. Lett.

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Diffractive axicons are optical components producing achromatic nondiffracting beams. They thus produce a focal line rather than a focal point for classical lenses. This gives the interesting property of a long focal depth. We show that this property can be used to design a simple imaging system with a linear variable zoom by using and translating a diffractive axicon as the only optical component.

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<title>Model of the second-order statistic of the radiance field of natural scenes, adapted to system conceiving</title>

Kattnig

Primot

1997

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Relevance of continuously self-imaging gratings for noise robust imagery

et al. 2012

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We have designed miniaturized, simple, and robust cameras composed of a single diffractive optical element (DOE) that generates a continuously self-imaging (CSI) beam. Two different DOEs are explored: the J0 Bessel transmittance, characterized by a continuous optical transfer function (OTF) and the CSI grating (CSIG), characterized by a sparse OTF. In this Letter, we will analyze the properties of both DOEs in terms of radiometric performances. We will demonstrate that the noise robustness is enhanced for a CSIG, thanks to the sparsity of its OTF. A camera using this DOE has been made and experimental images are presented to illustrate the noise robustness.

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Alain Kattnig

Absorbing metasurface created by diffractionless disordered arrays of nanoantennas

SIELETERS, an airborne infrared dual-band spectro-imaging system for measurement of scene spectral signatures

Demonstration of image-zooming capability for diffractive axicons

<title>Model of the second-order statistic of the radiance field of natural scenes, adapted to system conceiving</title>

Relevance of continuously self-imaging gratings for noise robust imagery

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