CRISTIAN
NEIPP LOPEZ
CATEDRATICO/A DE UNIVERSIDAD
FRANCISCO JAVIER
MARTINEZ GUARDIOLA
PROFESOR/A TITULAR UNIVERSIDAD
Publicacións nas que colabora con FRANCISCO JAVIER MARTINEZ GUARDIOLA (14)
2021
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Modeling liquid crystal on silicon microdisplays for holographic storage and polarization control
Optics InfoBase Conference Papers
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Modeling liquid crystal on silicon microdisplays for holographic storage and polarization control
Optics InfoBase Conference Papers
2020
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Analytical modeling of blazed gratings on two-dimensional pixelated liquid crystal on silicon devices
Optical Engineering, Vol. 59, Núm. 4
2018
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Anamorphic characterization of a PA-LCoS based holographic data storage system
Proceedings of SPIE - The International Society for Optical Engineering
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Simplified physical modeling of parallel-aligned liquid crystal devices at highly nonlinear tilt angle profiles
Optics Express, Vol. 26, Núm. 10, pp. 12723-12741
2017
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METROLOGY EXPERIMENTS TO UNDERSTAND WAVE PHASE AND DIFFRACTIVE CONCEPTS
9TH INTERNATIONAL CONFERENCE ON EDUCATION AND NEW LEARNING TECHNOLOGIES (EDULEARN17)
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Optimization of photopolymer materials for the fabrication of a holographic waveguide
Polymers, Vol. 9, Núm. 9
2016
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Effective modeling of PA-LCoS devices and application in data storage in photopolymers
2016 15th Workshop on Information Optics, WIO 2016
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Efficient split field FDTD analysis of third-order nonlinear materials in two-dimensionally periodic media
Proceedings of SPIE - The International Society for Optical Engineering
2014
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Acceleration of split-field finite difference time-domain method for anisotropic media by means of graphics processing unit computing
Optical Engineering, Vol. 53, Núm. 1
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Beta value coupled wave theory for nonslanted reflection gratings
The Scientific World Journal, Vol. 2014
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Influence of the photopolymer properties in the fabrication of diffractive optical elements
Proceedings of SPIE - The International Society for Optical Engineering
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Model of low spatial frequency diffractive elements recorded in photopolymers during and after recording
Optical Materials, Vol. 38, pp. 46-52
2012
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Analysis of periodic anisotropic media by means of split-field FDTD method and GPU computing
Proceedings of SPIE - The International Society for Optical Engineering