Showing papers by "Ignacio Moreno published in 2016"

Nondiffracting vector beams where the charge and the polarization state vary with propagation distance.

Abstract: We generate nondiffracting vector beams where the charge and the polarization state vary with the propagation distance. We use reflective geometry where a parallel-aligned spatial light modulator is used to spatially modulate two orthogonal linear polarizations. We encode spiral phases with equal charge but with opposite signs onto the two polarization directions to encode a vector beam and add two axicon phases. Both the charge and the phase shift between the two axicons can be varied along the focus line. We provide experimental results that demonstrate both features.

Generation of integer and fractional vector beams with q-plates encoded onto a spatial light modulator

Abstract: We generate programmable vector beams with arbitrary q-plates encoded using a spatial light modulator system. Consequently, we can analyze new and exotic q-plate designs without the difficulty of fabricating individual plates. We show experimental results for positive and negative integer and new fractional vector beam values.

Performance of a q-plate tunable retarder in reflection for the switchable generation of both first- and second-order vector beams.

Abstract: We examine the performance of a tunable liquid crystal q-plate in a reflective geometry. When the device is tuned to a half-wave retardance, it operates as a q-plate with twice the value (2q) by adding a quarter-wave retarder between the mirror and the q-plate. However, when the device is tuned to a quarter-wave retardance, it acts as the original q-plate without the retarder. Experimental results are shown. Using an input tunable polarization state generator, the system allows the switchable production of all states on both the first- and second-order Poincare spheres.

Diffraction gratings generating orders with selective states of polarization.

Abstract: We propose specially designed double anisotropic polarization diffraction gratings capable of producing a selective number of diffraction orders and with selective different states of polarization. Different polarization diffraction gratings are demonstrated, including linear polarization with horizontal, vertical and ± 45° orientations, and circular R and L polarization outputs. When illuminated with an arbitrary state of polarization, the system acts as a complete polarimeter where the intensities of the diffraction orders allow measurement of the Stokes parameters with a single shot. Experimental proof-of-concept is presented using a parallel-aligned liquid crystal display operating in a double pass architecture.

Optical system for measuring the spectral retardance function in an extended range

Abstract: Optical retarders are key elements for the control of the state of polarization of light, and their wavelength dependance is of great importance in a number of applications. We apply a well-known technique for determinig the spectral retardance by measuring the transmission spectra between crossed or parallel polarizers. But we we develop an optical system to perform this measurement in a wide spectral range covering the visible (VIS) and near infrared (NIR) spectrum in the range from 400 to 1600 nm. As a result we can measure the spectral retardance of different retarders and easily identify the kind of reterder (multiple order, zero-order, achromatic). We show results with tunable liquid-crystal retarders as well, where the technique is applied to determine the spectral retardance as a function of the applied voltage. Finally, the accuracy of the technique is verified by the generation of a birefringent spectral filter. A technique to measure the spectral retardance of a linear retarder in a wide spectral range is applied to identify different types of retarders, and provide an accurate description of the spectral polarization conversion properties of these elements.

Parallel generation of multiple first-order vector beams with a polarization grating and a q-plate device

Abstract: Vector beams, usually generated using q-plates, are of interest because their polarization state varies spatially. In general, the q-plate performance is examined by illuminating the device and detecting the output beam with polarization states on the 6 cardinal points on the zero-order Poincare sphere, requiring a total of 36 separate measurements. In this work we present a powerful technique to generate arbitrary vector beams in parallel, thus reducing the number of measurements required. We begin with a programmable polarization diffraction grating capable to generate an arbitrary number of diffraction orders with defined polarization states selected at will. Then we combine this grating with a segmented q-plate device with q = 1/2 value. Using this combination, the parallel generation of six arbitrary first-order vector beams is achieved in a single shot. Therefore, the analysis of these beams can be greatly reduced.

Generation of vector beams at 1550 nm telecommunications wavelength using a segmented q-plate

Abstract: We present the use of a q -plate device operating at the 1550 nm telecommunications wavelength. A prototype liquid-crystal device from Citizen Holdings Co. is demonstrated to be useful for the generation of vector beams and orbital angular momentum transfer at this important wavelength.

Outreach activities on light science and technology at TecnOpto-UMH during the International Year of Light

Abstract: TecnOpto is a group of researchers and teachers with interests in Optics and Photonics, located at the University Miguel Hernandez (UMH) of Elche (Spain). Here we report on our outreach activities carried out during the International Year of Light - 2015. They include experiments and demonstrations at elementary and secondary schools, seminars and exhibitions at the university, and the activity named the “Classroom for the Experience”, targeted to elder people. We also report on our participation in the science fair in Elche and in the launching of “the Room of Light”, a complete new section of the MUDIC science museum devoted to light and optics. MUDIC is located in the UMH campus of Orihuela, and receives visitors from all over the region, mainly young students from elementary and secondary schools. Finally, we report on the exhibition “Women in Light Science and Light Technologies” which was organized by members of our group in collaboration with RSEF - the Spanish Royal Physical Society and SEDOPTICA - the Spanish Optical Society and sponsored by SPIE. This exhibition consisting of twelve posters on relevant women scientists was inaugurated in the XI Spanish Meeting on Optics and has travelled around many universities and cultural centers in Spain. A summary of the contents, participation and developing of all these activities is presented.

Production of arbitrary polarized light beams with a liquid crystal spatial modulator

Abstract: In this paper, we review some of our recent advances in the generation and control of polarized light beams by means of liquid crystal light modulators. We use a reflective geometry where a single parallel-aligned spatial light modulator device is used to independently spatially modulate two orthogonal linear polarizations with two different phase profiles. In this way we are able to produce arbitrary polarization patterns, which can be combined to produce polarization diffractive elements. In this work we present two such new elements: 1) an anisotropic axicon capable to produce a line focus with axial arbitrary state of polarization, and 2) anisotropic diffraction gratings, capable to generate arbitrary orders of diffraction with different states of polarization designed at will. The anisotropic axicon generates a Bessel beam with polarization variation, which might be useful in micro-fabrication techniques. On the other hand, the anisotropic gratings are useful to produce snapshot polarimeters, capable to measure the Stokes parameters of a light beam in a single measurement. Finally, we will show that these elements can be combined with spiral phase patterns in order to convert them into cylindrically polarized light beams. Experimental results on the production of diffractive elements that generate light beams with these polarization features will be included.

Physical and encoded Q-plates for the generation of switchable vector beams

Abstract: In this work we report on our achievements in generating switchable and arbitrary vector beams by means of q-plates. Two kind of q-plates are considered: i) a physical prototype from Citizen Co. and ii) a virtual device that is encoded onto a spatial light modulator (SLM). In both cases experimental and analytical results within the Jones formalism are shown. The performance of a segmented and tunable liquid crystal q-plate prototype is characterized at visible and telecommunications wavelengths, and the generation of first-order vector beams is probed. By using a reflective geometry and tuning the q-plate at half-wave or at quarter-wave retardance, it is shown how the device can operate either as a q-plate with double order. Finally, we show the generation of arbitrary programmable integer and fractional vector beams by encoding a q-plate onto a SLM based system. The system is based on a double-pass configuration that consecutively modulates the vertical and the horizontal polarization components of light using a transmissive LCoS display. Therefore, new and exotic q-plate designs can be analyzed prior to their fabrication.