Haces de luz paraxiales con estados de polarización no convencionales para polarimetría Mueller
Loading...
Download
Official URL
Full text at PDC
Publication date
2025
Defense date
22/11/2024
Authors
Advisors (or tutors)
Editors
Journal Title
Journal ISSN
Volume Title
Publisher
Universidad Complutense de Madrid
Citation
Abstract
La polarimetría Mueller se ha establecido como una herramienta crucial para la caracterización óptica de materiales, proporcionando información detallada sobre la interacción de la luz con diferentes tipos de muestras. Sus aplicaciones son variadas y abarcan desde el diagnóstico y monitorización de enfermedades en medicina, hasta el control de calidad de materiales en la industria. En biología, permite el estudio de estructuras celulares y tisulares sin necesidad de tinción, y en agricultura, se utiliza para controlar la calidad de productos agrícolas y monitorizar la salud de los cultivos. El grupo de investigación Grupo de óptica física y haces láser (actualmente, Grupo de ingeniería de haces luminosos) en el que se ha desarrollado esta Tesis, lleva trabajando desde los años 90 en la propuesta de modelos teóricos y síntesis experimental de nuevos tipos de haces de luz, en particular, los haces no uniformes y totalmente polarizados...
Mueller polarimetry has established itself as a crucial tool for the optical characterization of materials, providing detailed information on the interaction of light with different types of samples. Its applications are varied and range from the diagnosis and monitoring of diseases in medicine to the quality control of materials in industry. In biology, it allows the study of cell and tissue structures without the need for staining, and in agriculture, it is used to control the quality of agricultural products and monitor crop health. The research group Physical Optics and Laser Beams Group (currently, Light Beams Engineering Group) in which this thesis has been developed, has been working since the 90’s on the proposal of theoretical models and experimental synthesis of new types of light beams, in particular, non-uniform and totally polarized beams...
Mueller polarimetry has established itself as a crucial tool for the optical characterization of materials, providing detailed information on the interaction of light with different types of samples. Its applications are varied and range from the diagnosis and monitoring of diseases in medicine to the quality control of materials in industry. In biology, it allows the study of cell and tissue structures without the need for staining, and in agriculture, it is used to control the quality of agricultural products and monitor crop health. The research group Physical Optics and Laser Beams Group (currently, Light Beams Engineering Group) in which this thesis has been developed, has been working since the 90’s on the proposal of theoretical models and experimental synthesis of new types of light beams, in particular, non-uniform and totally polarized beams...
Description
Tesis inédita de la Universidad Complutense de Madrid, Facultad de Ciencias Físicas, leída el 22-11-2024