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Jesús Atencia
Applied Physics Department, Aragon Institute of Engineering Research (I3A), Faculty of Science, University of Zaragoza, Pedro Cerbuna 12, 50009 Zaragoza, Spain

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Journal article
Published: 11 June 2021 in Optics & Laser Technology
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An optimized wavelength multiplexing procedure for color reflection holograms of diffusing objects recorded in Bayfol® HX photopolymer is proposed. It is based on simultaneous initial illumination of all the wavelengths and sequential shuttering down of the laser beams involved. Three lasers of 442 nm, 532 nm and 633 nm were selected, as a tradeoff solution between setup complexity and color reproduction accuracy. The obtained results prove that the presented method improves the simultaneous and sequential exposure methods by increasing the mean efficiency and reducing the standard deviation (increasing uniformity) of the involved wavelengths. For a Spectralon® diffusing object, the assessed method reports a mean efficiency of 25.0% with a standard deviation of 2.9%, while simultaneous and sequential iterative exposures result in mean efficiencies of 12.1% and 20.6% with standard deviations of 3.4% and 5.4%, respectively.

ACS Style

Irene Vázquez-Martín; Julia Marín-Sáez; Marina Gómez-Climente; Daniel Chemisana; María-Victoria Collados; Jesús Atencia. Full-color multiplexed reflection hologram of diffusing objects recorded by using simultaneous exposure with different times in photopolymer Bayfol® HX. Optics & Laser Technology 2021, 143, 107303 .

AMA Style

Irene Vázquez-Martín, Julia Marín-Sáez, Marina Gómez-Climente, Daniel Chemisana, María-Victoria Collados, Jesús Atencia. Full-color multiplexed reflection hologram of diffusing objects recorded by using simultaneous exposure with different times in photopolymer Bayfol® HX. Optics & Laser Technology. 2021; 143 ():107303.

Chicago/Turabian Style

Irene Vázquez-Martín; Julia Marín-Sáez; Marina Gómez-Climente; Daniel Chemisana; María-Victoria Collados; Jesús Atencia. 2021. "Full-color multiplexed reflection hologram of diffusing objects recorded by using simultaneous exposure with different times in photopolymer Bayfol® HX." Optics & Laser Technology 143, no. : 107303.

Journal article
Published: 04 March 2020 in Applied Optics
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A novel stacking procedure is presented for volume phase holographic gratings (VPHGs) recorded in photopolymer material using Corning Willow Glass as a flexible substrate in order to achieve broader angular and spectral selectivity in a diffractive device with high efficiency for solar and LED applications. For the first time to our knowledge, we have shown a device designed for use with a white LED that has the same input and output angles and high efficiency when illuminated by different wavelengths. In this paper, two VPHGs were designed, experimentally recorded, and tested when illuminated at normal incidence. The experimental approach is based on stacking two individual gratings in which the spatial frequency and slant have been tailored to the target wavelength and using real-time on-Bragg monitoring of the gratings in order to control the recorded refractive index modulation, thereby optimizing each grating efficiency for its design wavelength. Lamination of the two gratings together was enabled by using a flexible glass substrate (Corning Willow Glass). Recording conditions were studied in order to minimize the change in diffraction efficiency and peak diffraction angle during lamination and bleaching. The final fabricated stacked device was illuminated by a white light source, and its output was spectrally analyzed. Compared to a single grating, the stacked device demonstrated a twofold increase in angular and wavelength range. The angular and wavelength selectivity curves are in good agreement with the theoretical prediction for this design. This approach could be used to fabricate stacked lenses for white light LED or solar applications.

ACS Style

Sanjay Keshri; Julia Marín-Sáez; Izabela Naydenova; Kevin Murphy; Jesus Atencia; Daniel Chemisana; Sean Garner; M. V. Collados; Suzanne Martin. Stacked volume holographic gratings for extending the operational wavelength range in LED and solar applications. Applied Optics 2020, 59, 2569 -2579.

AMA Style

Sanjay Keshri, Julia Marín-Sáez, Izabela Naydenova, Kevin Murphy, Jesus Atencia, Daniel Chemisana, Sean Garner, M. V. Collados, Suzanne Martin. Stacked volume holographic gratings for extending the operational wavelength range in LED and solar applications. Applied Optics. 2020; 59 (8):2569-2579.

Chicago/Turabian Style

Sanjay Keshri; Julia Marín-Sáez; Izabela Naydenova; Kevin Murphy; Jesus Atencia; Daniel Chemisana; Sean Garner; M. V. Collados; Suzanne Martin. 2020. "Stacked volume holographic gratings for extending the operational wavelength range in LED and solar applications." Applied Optics 59, no. 8: 2569-2579.

Journal article
Published: 28 March 2018 in Optics Express
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Concentrating photovoltaics for building integration can be successfully carried out with Holographic Optical Elements (HOEs) because of their behavior analogous to refractive optical elements and their tuning ability to the spectral range that the photovoltaic (PV) cell is sensitive to. That way, concentration of spectral ranges that would cause overheating of the cell is avoided. Volume HOEs are usually chosen because they provide high efficiencies. However, their chromatic selectivity is also very high, and only a small part of the desired spectral range reaches the PV cell. A novel approach is theoretically and experimentally explored to overcome this problem: the use of HOEs operating in the transition regime, which yield lower chromatic selectivity while keeping rather high efficiencies. A model that considers the recording material’s response, by determining the index modulation reached for each spatial frequency and exposure dosage, has been developed. It has been validated with experimental measurements of three cylindrical holographic lenses with different spatial frequency ranges recorded in Bayfol HX photopolymer. Simulations of systems comprising two lenses and a mono-c Si PV cell are carried out with the standard AM 1.5D solar spectrum. Promising results are obtained when using the system with lower spatial frequencies lenses: a total current intensity equal to 3.72 times the one that would be reached without the concentrator.

ACS Style

Julia Marín-Sáez; Jesús Atencia; Daniel Chemisana; María-Victoria Collados. Full modeling and experimental validation of cylindrical holographic lenses recorded in Bayfol HX photopolymer and partly operating in the transition regime for solar concentration. Optics Express 2018, 26, A398 -A412.

AMA Style

Julia Marín-Sáez, Jesús Atencia, Daniel Chemisana, María-Victoria Collados. Full modeling and experimental validation of cylindrical holographic lenses recorded in Bayfol HX photopolymer and partly operating in the transition regime for solar concentration. Optics Express. 2018; 26 (10):A398-A412.

Chicago/Turabian Style

Julia Marín-Sáez; Jesús Atencia; Daniel Chemisana; María-Victoria Collados. 2018. "Full modeling and experimental validation of cylindrical holographic lenses recorded in Bayfol HX photopolymer and partly operating in the transition regime for solar concentration." Optics Express 26, no. 10: A398-A412.

Book chapter
Published: 01 March 2017 in Vortex Dynamics and Optical Vortices
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Holographic Optical Elements to Generate Achromatic Vortices with Ultra-Short and Ultra-Intense Laser Pulses | InTechOpen, Published on: 2017-03-01. Authors: María-Victoria Collados, Íñigo J. Sola, Julia Marín-Sáez, et

ACS Style

María-Victoria Collados; Iñigo J. Sola; Julia Marín-Sáez; Warein Holgado; Jesús Atencia. Holographic Optical Elements to Generate Achromatic Vortices with Ultra-Short and Ultra-Intense Laser Pulses. Vortex Dynamics and Optical Vortices 2017, 1 .

AMA Style

María-Victoria Collados, Iñigo J. Sola, Julia Marín-Sáez, Warein Holgado, Jesús Atencia. Holographic Optical Elements to Generate Achromatic Vortices with Ultra-Short and Ultra-Intense Laser Pulses. Vortex Dynamics and Optical Vortices. 2017; ():1.

Chicago/Turabian Style

María-Victoria Collados; Iñigo J. Sola; Julia Marín-Sáez; Warein Holgado; Jesús Atencia. 2017. "Holographic Optical Elements to Generate Achromatic Vortices with Ultra-Short and Ultra-Intense Laser Pulses." Vortex Dynamics and Optical Vortices , no. : 1.

Journal article
Published: 25 July 2016 in Energies
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A building integrated holographic concentrating photovoltaic-thermal system has been optically and energetically simulated. The system has been designed to be superimposed into a solar shading louvre; in this way the concentrating unit takes profit of the solar altitude tracking, which the shading blinds already have, to increase system performance. A dynamic energy simulation has been conducted in two different locations—Sde Boker (Israel) and Avignon (France)—both with adequate annual irradiances for solar applications, but with different weather and energy demand characteristics. The simulation engine utilized has been TRNSYS, coupled with MATLAB (where the ray-tracing algorithm to simulate the holographic optical performance has been implemented). The concentrator achieves annual mean optical efficiencies of 30.3% for Sde Boker and 43.0% for the case of Avignon. Regarding the energy production, in both locations the thermal energy produced meets almost 100% of the domestic hot water demand as this has been considered a priority in the system control. On the other hand, the space heating demands are covered by a percentage ranging from 15% (Avignon) to 20% (Sde Boker). Finally, the electricity produced in both places covers 7.4% of the electrical demand profile for Sde Boker and 9.1% for Avignon.

ACS Style

Julia Marín-Sáez; Daniel Chemisana; Álex Moreno; Alberto Riverola; Jesús Atencia; María-Victoria Collados. Energy Simulation of a Holographic PVT Concentrating System for Building Integration Applications. Energies 2016, 9, 577 .

AMA Style

Julia Marín-Sáez, Daniel Chemisana, Álex Moreno, Alberto Riverola, Jesús Atencia, María-Victoria Collados. Energy Simulation of a Holographic PVT Concentrating System for Building Integration Applications. Energies. 2016; 9 (8):577.

Chicago/Turabian Style

Julia Marín-Sáez; Daniel Chemisana; Álex Moreno; Alberto Riverola; Jesús Atencia; María-Victoria Collados. 2016. "Energy Simulation of a Holographic PVT Concentrating System for Building Integration Applications." Energies 9, no. 8: 577.

Journal article
Published: 01 June 2016 in Renewable and Sustainable Energy Reviews
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The use of holographic optical elements for solar energy applications has increased interest in the recent years because of their potential to reduce production cost, their ability to select certain bandwidths of the solar spectrum and their suitability for architectural integration. Among the different typologies of holograms, volume holograms are the most widely utilised devices due to their high efficiency (up to 100%) and also because they have two important characteristics: angular selectivity and chromatic selectivity, which are crucial for the design of systems addressed for lighting, solar shading or solar concentrators. In the present article, an analysis of the main existing holographic solar energy systems is presented, with emphasis on the characteristics of the optical element.

ACS Style

M. Victoria Collados; Daniel Chemisana; Jesús Atencia; Jesús Atencia Carrizo. Holographic solar energy systems: The role of optical elements. Renewable and Sustainable Energy Reviews 2016, 59, 130 -140.

AMA Style

M. Victoria Collados, Daniel Chemisana, Jesús Atencia, Jesús Atencia Carrizo. Holographic solar energy systems: The role of optical elements. Renewable and Sustainable Energy Reviews. 2016; 59 ():130-140.

Chicago/Turabian Style

M. Victoria Collados; Daniel Chemisana; Jesús Atencia; Jesús Atencia Carrizo. 2016. "Holographic solar energy systems: The role of optical elements." Renewable and Sustainable Energy Reviews 59, no. : 130-140.

Journal article
Published: 18 March 2016 in Optics Express
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Volume Holographic Optical Elements (HOEs) present interesting characteristics for photovoltaic applications as they can select spectrum for concentrating the target bandwidth and avoiding non-desired wavelengths, which can cause the decrease of the performance on the cell, for instance by overheating it. Volume HOEs have been recorded on Bayfol HX photopolymer to test the suitability of this material for solar concentrating photovoltaic systems. The HOEs were recorded at 532 nm and provided a dynamic range, reaching close to 100% efficiency at 800 nm. The diffracted spectrum had a FWHM of 230 nm when illuminating at Bragg angle. These characteristics prove HOEs recorded on Bayfol HX photopolymer are suitable for concentrating solar light onto photovoltaic cells sensitive to that wavelength range.

ACS Style

Julia Marín-Sáez; Jesús Atencia; Daniel Chemisana; María-Victoria Collados. Characterization of volume holographic optical elements recorded in Bayfol HX photopolymer for solar photovoltaic applications. Optics Express 2016, 24, A720 -A730.

AMA Style

Julia Marín-Sáez, Jesús Atencia, Daniel Chemisana, María-Victoria Collados. Characterization of volume holographic optical elements recorded in Bayfol HX photopolymer for solar photovoltaic applications. Optics Express. 2016; 24 (6):A720-A730.

Chicago/Turabian Style

Julia Marín-Sáez; Jesús Atencia; Daniel Chemisana; María-Victoria Collados. 2016. "Characterization of volume holographic optical elements recorded in Bayfol HX photopolymer for solar photovoltaic applications." Optics Express 24, no. 6: A720-A730.

Journal article
Published: 18 May 2015 in Optics Express
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A ray tracing algorithm is developed to analyze the energy performance of transmission and phase volume holographic lenses that operate with broadband illumination. The agreement between the experimental data and the theoretical treatment has been tested. The model has been applied to analyze the optimum recording geometry for solar concentration applications.

ACS Style

Paula Bañares-Palacios; Samuel Álvarez-Álvarez; Julia Marín-Sáez; María-Victoria Collados; Daniel Chemisana; Jesús Atencia. Broadband behavior of transmission volume holographic optical elements for solar concentration. Optics Express 2015, 23, A671 -A681.

AMA Style

Paula Bañares-Palacios, Samuel Álvarez-Álvarez, Julia Marín-Sáez, María-Victoria Collados, Daniel Chemisana, Jesús Atencia. Broadband behavior of transmission volume holographic optical elements for solar concentration. Optics Express. 2015; 23 (11):A671-A681.

Chicago/Turabian Style

Paula Bañares-Palacios; Samuel Álvarez-Álvarez; Julia Marín-Sáez; María-Victoria Collados; Daniel Chemisana; Jesús Atencia. 2015. "Broadband behavior of transmission volume holographic optical elements for solar concentration." Optics Express 23, no. 11: A671-A681.

Journal article
Published: 11 October 2011 in Applied Physics A
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We have designed and developed a pulse compressor with volume transmission holographic gratings to be implemented in post-compression experiments based on filamentation in gases. Pulse compression down to 13 fs has been demonstrated. The gratings have been recorded in commercial PFG-04 dichromated gelatin emulsions with a recording wavelength of 532 nm, attaining sufficient index modulation to achieve high efficiency when they are illuminated by an 800-nm laser.

ACS Style

A. Villamarín; I. J. Sola; M. V. Collados; J. Atencia; O. Varela; Benjamin Alonso; C. Méndez; J. San Román; I. Arias; L. Roso; M. Quintanilla. Compensation of second-order dispersion in femtosecond pulses after filamentation using volume holographic transmission gratings recorded in dichromated gelatin. Applied Physics A 2011, 106, 135 -141.

AMA Style

A. Villamarín, I. J. Sola, M. V. Collados, J. Atencia, O. Varela, Benjamin Alonso, C. Méndez, J. San Román, I. Arias, L. Roso, M. Quintanilla. Compensation of second-order dispersion in femtosecond pulses after filamentation using volume holographic transmission gratings recorded in dichromated gelatin. Applied Physics A. 2011; 106 (1):135-141.

Chicago/Turabian Style

A. Villamarín; I. J. Sola; M. V. Collados; J. Atencia; O. Varela; Benjamin Alonso; C. Méndez; J. San Román; I. Arias; L. Roso; M. Quintanilla. 2011. "Compensation of second-order dispersion in femtosecond pulses after filamentation using volume holographic transmission gratings recorded in dichromated gelatin." Applied Physics A 106, no. 1: 135-141.

Journal article
Published: 01 December 2006 in Applied Optics
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Two anamorphic and achromatic Fourier processors were designed and constructed using diffractive and refractive cylindrical lenses. The diffractive lenses are holographic lenses recorded on silver halide material. In both processors the achromatic one-dimensional Fourier transform plane was obtained with two holographic lenses and one refractive cylindrical lens. The image with the same magnification in both directions at the output plane was formed with two different combinations of lenses. The differences between the two processors are analyzed, and in both cases the chromatic aberration in the Fourier plane and in the output plane is evaluated. Even though single cylindrical refractive lenses were used to image in one direction, good results were obtained.

ACS Style

M. Victoria Collados; Isabel Arias; Jesús Atencia; Manuel Quintanilla. Anamorphic white light Fourier processor with holographic lenses. Applied Optics 2006, 45, 8706 -8713.

AMA Style

M. Victoria Collados, Isabel Arias, Jesús Atencia, Manuel Quintanilla. Anamorphic white light Fourier processor with holographic lenses. Applied Optics. 2006; 45 (34):8706-8713.

Chicago/Turabian Style

M. Victoria Collados; Isabel Arias; Jesús Atencia; Manuel Quintanilla. 2006. "Anamorphic white light Fourier processor with holographic lenses." Applied Optics 45, no. 34: 8706-8713.

Journal article
Published: 10 November 2003 in Applied Optics
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Partitioned-field uniaxial volume holographic lenses increase the image fields of holographic volume lenses that are limited by angular selectivity. The efficiency and aberrations of one of these systems consisting of two overlapping uniaxial noncentered lenses were reported previously [Appl. Opt. 38, 4011 (1999)]. In the present study we present theoretical and experimental extensions of these systems to three overlapping lenses, showing how the dynamic range of the recording material can cause an important decrease in efficiency when several gratings are superposed on the same plate.

ACS Style

M. Victoria Collados; Ana M. López; Jesús Atencia; Manuel Quintanilla; Jesús Atencia Carrizo. Partitioned-field holographic lenses composed of three noncentered uniaxial systems. Applied Optics 2003, 42, 6445 -6451.

AMA Style

M. Victoria Collados, Ana M. López, Jesús Atencia, Manuel Quintanilla, Jesús Atencia Carrizo. Partitioned-field holographic lenses composed of three noncentered uniaxial systems. Applied Optics. 2003; 42 (32):6445-6451.

Chicago/Turabian Style

M. Victoria Collados; Ana M. López; Jesús Atencia; Manuel Quintanilla; Jesús Atencia Carrizo. 2003. "Partitioned-field holographic lenses composed of three noncentered uniaxial systems." Applied Optics 42, no. 32: 6445-6451.

Short communication
Published: 01 December 2001 in Optics Communications
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In revolution-symmetrical optical systems design, it is usual to extract information of aberrations from ray tracing of selected rays. In this work, we generalise the relationship between ray aberration and wave aberration for a biaxial imaging system that includes holographic optical elements (HOEs); both for conjugate planes perpendicular to optical axis or parallel to lens plane. We study the pattern of the light distribution at image plane produced by each aberration term, showing similarities and differences with those of revolution-symmetrical systems. We describe a practical procedure to complete characterisation of the imaging performance of biaxial optical systems including HOEs, by tracing only six rays. The principal advantage of this procedure is that we can obtain experimentally the aberration coefficients at the output of any imaging system including biaxial holographic elements. We show that aberration coefficients obtained from ray tracing have a good coincidence with those predicted by third-order approximation. We apply our procedure to pupil position optimisation in a holographic lens.

ACS Style

Jesús Atencia; Manuel Quintanilla; Jesús Atencia Carrizo. Ray aberration for a biaxial holographic imaging system. Optics Communications 2001, 199, 325 -344.

AMA Style

Jesús Atencia, Manuel Quintanilla, Jesús Atencia Carrizo. Ray aberration for a biaxial holographic imaging system. Optics Communications. 2001; 199 (5):325-344.

Chicago/Turabian Style

Jesús Atencia; Manuel Quintanilla; Jesús Atencia Carrizo. 2001. "Ray aberration for a biaxial holographic imaging system." Optics Communications 199, no. 5: 325-344.

Journal article
Published: 01 August 2001 in Journal of Optics A: Pure and Applied Optics
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We describe the basis for the ray tracing procedure in aspheric holographic optical elements to include the effect of non-spherical construction waves on local grating. We propose an algorithm to determine the effect of plane-parallel glass-plate substrate on local grating of holographic lenses. The effectiveness of the algorithm is demonstrated by comparing spot diagrams obtained from ray tracing with the image spots produced by a real system using the Hartmann test. The theoretical development is used to prove the compensation of the glass-plate substrate aberration contribution in a holographic compound system for optical image formation.

ACS Style

Jesús Atencia; Manuel Quintanilla; Jesús Atencia Carrizo. Ray tracing for holographic optical element recording with non-spherical waves. Journal of Optics A: Pure and Applied Optics 2001, 3, 387 -397.

AMA Style

Jesús Atencia, Manuel Quintanilla, Jesús Atencia Carrizo. Ray tracing for holographic optical element recording with non-spherical waves. Journal of Optics A: Pure and Applied Optics. 2001; 3 (5):387-397.

Chicago/Turabian Style

Jesús Atencia; Manuel Quintanilla; Jesús Atencia Carrizo. 2001. "Ray tracing for holographic optical element recording with non-spherical waves." Journal of Optics A: Pure and Applied Optics 3, no. 5: 387-397.

Conference paper
Published: 03 October 2000 in Holography 2000
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The angular selectivity inherent to volume holograms limits the imaged field in holographic optical systems with high efficiency. We describe three systems designed to overcome this problem based on the recording of gratings with different recording planes. A fourth solution, using gratings recorded with different object points sources and plane waves, is also presented.

ACS Style

Ana M. López; Jesus Atencia; Isabel Arias; Manuel M. Quintanilla; Jesús Atencia Carrizo. Field improvement in optical uniaxial centered systems composed of holographic elements. Holography 2000 2000, 177 -186.

AMA Style

Ana M. López, Jesus Atencia, Isabel Arias, Manuel M. Quintanilla, Jesús Atencia Carrizo. Field improvement in optical uniaxial centered systems composed of holographic elements. Holography 2000. 2000; ():177-186.

Chicago/Turabian Style

Ana M. López; Jesus Atencia; Isabel Arias; Manuel M. Quintanilla; Jesús Atencia Carrizo. 2000. "Field improvement in optical uniaxial centered systems composed of holographic elements." Holography 2000 , no. : 177-186.