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Single-Mode Polymer Ridge Waveguide Integration of Organic Thin-Film Laser

Čehovski, Marko ; Becker, Jing ; Charfi, Ouacef ; [et al.]

MDPI AG ; 2020

In: Applied Sciences Vol. 10, No. 8 ( 2020-04-18), p. 2805-

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In: Applied Sciences, MDPI AG, Vol. 10, No. 8 ( 2020-04-18), p. 2805-

Abstract: Organic thin-film lasers (OLAS) are promising optical sources when it comes to flexibility and small-scale manufacturing. These properties are required especially for integrating organic thin-film lasers into single-mode waveguides. Optical sensors based on single-mode ridge waveguide systems, especially for Lab-on-a-chip (LoC) applications, usually need external laser sources, free-space optics, and coupling structures, which suffer from coupling losses and mechanical stabilization problems. In this paper, we report on the first successful integration of organic thin-film lasers directly into polymeric single-mode ridge waveguides forming a monolithic laser device for LoC applications. The integrated waveguide laser is achieved by three production steps: nanoimprint of Bragg gratings onto the waveguide cladding material EpoClad, UV-Lithography of the waveguide core material EpoCore, and thermal evaporation of the OLAS material Alq3:DCM2 on top of the single-mode waveguides and the Bragg grating area. Here, the laser light is analyzed out of the waveguide facet with optical spectroscopy presenting single-mode characteristics even with high pump energy densities. This kind of integrated waveguide laser is very suitable for photonic LoC applications based on intensity and interferometric sensors where single-mode operation is required.

Type of Medium: Online Resource

ISSN: 2076-3417

URL: Article

DOI: 10.3390/app10082805

Language: English

Publisher: MDPI AG

Publication Date: 2020

detail.hit.zdb_id: 2704225-X

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DLR HySU—A Benchmark Dataset for Spectral Unmixing

Cerra, Daniele ; Pato, Miguel ; Alonso, Kevin ; [et al.]

MDPI AG ; 2021

In: Remote Sensing Vol. 13, No. 13 ( 2021-06-30), p. 2559-

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In: Remote Sensing, MDPI AG, Vol. 13, No. 13 ( 2021-06-30), p. 2559-

Abstract: Spectral unmixing represents both an application per se and a pre-processing step for several applications involving data acquired by imaging spectrometers. However, there is still a lack of publicly available reference data sets suitable for the validation and comparison of different spectral unmixing methods. In this paper, we introduce the DLR HyperSpectral Unmixing (DLR HySU) benchmark dataset, acquired over German Aerospace Center (DLR) premises in Oberpfaffenhofen. The dataset includes airborne hyperspectral and RGB imagery of targets of different materials and sizes, complemented by simultaneous ground-based reflectance measurements. The DLR HySU benchmark allows a separate assessment of all spectral unmixing main steps: dimensionality estimation, endmember extraction (with and without pure pixel assumption), and abundance estimation. Results obtained with traditional algorithms for each of these steps are reported. To the best of our knowledge, this is the first time that real imaging spectrometer data with accurately measured targets are made available for hyperspectral unmixing experiments. The DLR HySU benchmark dataset is openly available online and the community is welcome to use it for spectral unmixing and other applications.

Type of Medium: Online Resource

ISSN: 2072-4292

URL: Article

DOI: 10.3390/rs13132559

Language: English

Publisher: MDPI AG

Publication Date: 2021

detail.hit.zdb_id: 2513863-7

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Multicolor Holographic Display of 3D Scenes Using Referenceless Phase Holography (RELPH)

Müller, André F. ; Rukin, Ilja ; Falldorf, Claas ; [et al.]

MDPI AG ; 2021

In: Photonics Vol. 8, No. 7 ( 2021-06-30), p. 247-

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In: Photonics, MDPI AG, Vol. 8, No. 7 ( 2021-06-30), p. 247-

Abstract: In this paper, we present a multicolor display via referenceless phase holography (RELPH). RELPH permits the display of full optical wave fields (amplitude and phase) using two liquid crystal phase-only spatial light modulators in a Michelson-interferometer-based arrangement. Complex wave fields corresponding to arbitrary real or artificial 3D scenes are decomposed into two mutually coherent wave fields of constant amplitude whose phase distributions are modulated onto the wave fields reflected by the respective light modulators. Here, we present the realization of that concept in two different ways: firstly, via temporal multiplexing using a single setup, switching between wavelengths for temporal integration of the respective wavefields; secondly, using spatial multiplexing of different wavelengths with multiple Michelson-based setups; and finally, we present an approach to magnify the 3D scenes displayed by light modulators with limited space–bandwidth product for a comfortable viewing experience.

Type of Medium: Online Resource

ISSN: 2304-6732

URL: Article

DOI: 10.3390/photonics8070247

Language: English

Publisher: MDPI AG

Publication Date: 2021

detail.hit.zdb_id: 2770002-1

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