INTENSIFICATION AND OPTICAL PENETRATION IN PLASMONIC THIN FILM SOLAR CELL BY NANO PARTICLE ON METAL DIELECTRIC SEMICONDUCTOR-PHOTONIC RESPONSE

As of late, Plasmonic gives expanded interest that has been gotten as an approach to improvement in photonic reaction at optical termination at metal-dielectric interface. Its featured property is that nanostructure can handle optical fields because of the solid association of the metal-dielectric structure that permits episode photonic spread at the nano scale. In this examination, we research and reproduce the viability of different huge band gap dielectric materials like silicon nitride, aluminum oxide and silicon dioxide with different metallic nano particle and furthermore reenact limited time sensitive metal dielectric-semiconductor nanostructure and discover different field part for plasmonic improvement in type of photonic elimination in metal-dielectric nanostructure explicitly for sun-based energy reaping system. Photovoltaic sunlightbased cell changes over phonic energy into electrical energy