Ponencias en congresos:
Liquid crystal spiral diffraction lenses
Año:2019
Áreas de investigación
- Óptica, electromagnetismo
Datos
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Descripción
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| Electrooptic materials, whose refractive index can be modified by external fields, can be employed to create tunable lenses with no movable parts, that result useful for many applications from spatial environment to mobile phone cameras and adaptive contact lenses. Liquid crystals are especially suitable for these applications since LC reorientation is relatively simple and low voltage driving signals are required. However, the design of tunable LC lenses is not simple. The main difficulty is to achieve optimized electrode profiles giving the right wavefront deformation to focus flat wavefronts into a single focal point without compromising the symmetry of the electrodes [1]. Regular lenses show very low power for any reasonable birefringence and cell thickness ?unless their size is reduced to microlenses; radial phase-wrapping devices like Fresnel diffractive lenses (FDL) are the best way to overcome this limitation. However, Fresnel lenses are made of a number of concentric electrodes, the larger the better, whose external electrical interconnection is extremely involved, requiring dozens of independent tracks that discontinue the circular electrodes and constrain the cell fill factor. In this work we have developed a device having independent azimuthal and radial phase-wrapping. This is a combination of a spiral phase plate and an FDL, giving a spiral diffractive lens. No internal connections are required; the fill factor is about 0.98. Divergent and convergent lenses (1? Ø, ±2.5 diopters) can be obtained from the same device (Fig. 1). | |
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Internacional
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Si |
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Nombre congreso
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15th European Conference on Liquid Crystals |
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Tipo de participación
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730 |
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Lugar del congreso
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Wrocraw, Poland |
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Revisores
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Si |
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ISBN o ISSN
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0000-0000 |
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DOI
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Fecha inicio congreso
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30/06/2019 |
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Fecha fin congreso
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05/07/2019 |
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Desde la página
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Hasta la página
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1 |
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Título de las actas
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Liquid crystal spiral diffraction lenses |
Ver publicación en Archivo digital upm
Esta actividad pertenece a memorias de investigación
Participantes
- Autor: Jose Manuel Oton Sanchez UPM
- Autor: Patxi Xabier Quintana Arregui UPM
- Autor: Manuel Caño Garcia UPM
- Autor: Morten Andreas Geday UPM
Grupos de investigación, Departamentos, Centros e Institutos de I+D+i relacionados
- Creador: Grupo de Investigación: Grupo de Fotónica Aplicada
- Departamento: Tecnología Fotónica y Bioingeniería