S. Blaya scite author profile

The quantum efficiency and the molar-absorption coefficients of different phenothiazine dyes are obtained by means of fitting the experimental data of transmittance as a function of time. An analytical expression for the intensity transmitted in a photopolymerizable holographic material is obtained, and good agreement between theory and experience is also achieved. The analysis of these parameters is of fundamental quantities in the photochemical characterization of holographic recording materials.

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Optimization of an acrylamide-based dry film used for holographic recording

Blaya

Carretero

Mallavia

et al. 1998

Appl. Opt.

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A study of the optimization and the characteristics of a dry film photopolymerizable recording material is presented. The effects of intensity, the thickness, and the variation of the concentration of each component have been studied. Diffraction efficiencies of 80%, with energetic sensitivities of 40 mJ/cm(2), have been obtained in photosensitive films of a 35-mum thickness with a spatial frequency of 1000 lines/mm.

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Nonparaxial diffraction analysis of Airy and SAiry beams

et al. 2009

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We theoretically analyze Airy beams by solving the exact vectorial Helmholtz equation using boundary conditions at a diffraction aperture. As result, the diffracted beams are obtained in the whole space; thus, we demonstrate that the parabolic trajectories are larger than those previously reported, showing that the Airy beams start to form before the Fourier plane. We also demonstrate the possibility of using a new type of Airy beams (SAiry beams) with finite energy that can be generated at the focal plane of the lens due to diffraction by a circular aperture of a spherical wave modified by a cubic phase. The finite energy ensured by the principle of conservation of energy of a diffracted beam.

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Matrix method for the study of wave propagation in one-dimensional general media

Carretero¹,

Pérez-Molina²,

Acebal³

et al. 2006

Opt. Express

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A matrix method which relates the field and its derivative is presented for the study of wave propagation in any type of one-dimensional media. The transfer matrix is obtained from the canonical solutions of Helmholtz equations at normal incidence. The method is applied to different optical systems like a Fabry-Perot cavity formed by uniform fiber Bragg gratings, periodic dielectric structures and different quasi-periodic structures based on Fibonacci and Thue-Morse sequences of layers with constant and variable refractive index.

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S. Blaya

Photopolymerization model for holographic gratings formation in photopolymers

Theoretical and experimental study of the bleaching of a dye in a film-polymerization process

Optimization of an acrylamide-based dry film used for holographic recording

Nonparaxial diffraction analysis of Airy and SAiry beams

Matrix method for the study of wave propagation in one-dimensional general media

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