PROJECT TITLE :

Enhancement of Optical Magnetic Modes by Controlling the Handedness of Symmetry Breaking in Fano Metamolecules

ABSTRACT:

Artificial plasmonic magnetic metamaterials consisting of closely spaced metallic nanoparticles are extensively investigated in recent times. During this paper, a completely unique approach to enhancing the optical magnetic mode during a nanoquadrumer Fano metamolecule by controlling the handedness of symmetry breaking under linearly polarized illumination is proposed. Circular dichroism of the asymmetrical metamolecule beneath circularly polarized illumination will additionally be generated. The results are analyzed using coupled-mode theory. This paper will be of profit to artificial magnetism style, negative permeability metamaterial engineering, and optical activity tuning.


Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here


PROJECT TITLE : A Biological Vision Inspired Framework for Image Enhancement in Poor Visibility Conditions ABSTRACT: For many computer vision applications, image augmentation is an essential pre-processing step, especially for
PROJECT TITLE : An Underwater Image Enhancement Benchmark Dataset and Beyond ABSTRACT: Due to its importance in marine engineering and aquatic robotics, underwater image enhancement has gotten a lot of attention. There have been
PROJECT TITLE : A Convex Optimization Framework for Video Quality and Resolution Enhancement From Multiple Descriptions ABSTRACT: Streaming and compressing methods Of the last decade, technological advancements have led to a migration
PROJECT TITLE : Content-Aware Enhancement of Images With Filamentous Structures ABSTRACT: Enhancement methods for photos with filamentous features are described in this research. For the elimination of clutter and noise from the
PROJECT TITLE : Contrast in Haze Removal Configurable Contrast Enhancement Model Based on Dark Channel Prior ABSTRACT: To improve the quality of the rebuilt image, conventional haze removal methods modify the contrast and saturation.

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry