Version 2 2023-11-29, 03:53Version 2 2023-11-29, 03:53
Version 1 2023-11-24, 11:29Version 1 2023-11-24, 11:29
thesis
posted on 2023-11-29, 03:53authored byHERATH MUDIYANSELAGE KOSALA SANANTHANA HERATH
The intricate interplay between light and matter has captivated the research landscape across diverse domains including optoelectronics, quantum computing, spectroscopy, and biophotonics. While periodically driven fermion systems have garnered considerable attention in atomic and molecular arrangements, an in-depth analysis of transport characteristics in dressed nanostructures remains a critical pursuit. In this study, we embark on a theoretical journey to unravel the electrical and optical behaviors of nanostructures exposed to intense periodic electromagnetic fields. By subjecting nanostructures to these conditions, insights into their responses under the influence of potent electromagnetic fields emerge, paving the way for transformative applications in varied technological sectors. We seek to illuminate the sophisticated interplay between light and matter at the nanoscale, thereby contributing to the expansive realm of nanotechnology.