We have recently developed a novel composite photosensitive material allowing the holographic recording of diffraction gratings with high diffraction efficiency, transparency and spatial resolution. In the present work such material was used to produce a low cost and easy to make optically pumped, organic distributed feedback laser, working on the first diffraction order of a high quality grating doped with a photoluminescent dye. The experimental geometry incorporates two optical fibers which can be used to characterize the laser device in any development stage, collect emitted laser radiation, and offer an alternative way to pump the grating structure. The material properties and the used geometry allow the achievement of good performances in terms of energy threshold and linewidth. A comparison with holographic gratings made with holographic-polymer dispersed liquid crystals is reported to highlight the key role of the developed material.

Laser emission based on first order reflection by novel compositepolymeric gratings / Lucchetta, Daniele Eugenio; Vita, Francesco; Castagna, R.; Francescangeli, Oriano; Simoni, Francesco. - In: PHOTONICS AND NANOSTRUCTURES. - ISSN 1569-4410. - STAMPA. - 10:1(2012), pp. 140-145. [10.1016/j.photonics.2011.10.001]

Laser emission based on first order reflection by novel compositepolymeric gratings

LUCCHETTA, Daniele Eugenio;VITA, Francesco;FRANCESCANGELI, ORIANO;SIMONI, Francesco
2012-01-01

Abstract

We have recently developed a novel composite photosensitive material allowing the holographic recording of diffraction gratings with high diffraction efficiency, transparency and spatial resolution. In the present work such material was used to produce a low cost and easy to make optically pumped, organic distributed feedback laser, working on the first diffraction order of a high quality grating doped with a photoluminescent dye. The experimental geometry incorporates two optical fibers which can be used to characterize the laser device in any development stage, collect emitted laser radiation, and offer an alternative way to pump the grating structure. The material properties and the used geometry allow the achievement of good performances in terms of energy threshold and linewidth. A comparison with holographic gratings made with holographic-polymer dispersed liquid crystals is reported to highlight the key role of the developed material.
2012
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/66078
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