Plasmonic Lens: Innovative Approaches to Light Manipulation and Nanoscale Energy Conversion

Plasmonic lens-This chapter introduces the concept of plasmonic lenses, their design, and application in focusing light beyond the diffraction limit

Hybrid plasmonic waveguide-Delve into hybrid plasmonic waveguides, which combine plasmonic and dielectric materials for efficient light propagation at the nanoscale

Nanophotonics-Discover the integration of nanostructures with photonic systems, enabling manipulation of light at subwavelength scales

Plasmon-Understand the fundamental properties of plasmon waves and how they interact with light, forming the core of plasmonic technologies

Extraordinary optical transmission-Learn about extraordinary optical transmission (EOT), a phenomenon where light passes through subwavelength apertures in metals, pushing the boundaries of optical transmission

Contact lithography-Explore the techniques of contact lithography, a method for patterning nanoscale structures used in plasmonic devices and nanofabrication

Localized surface plasmon-This chapter covers localized surface plasmon resonance, an effect that enhances the electromagnetic fields near metallic nanostructures, essential for sensor applications

Plasmonic metamaterial-Study plasmonic metamaterials, engineered materials that exhibit unique electromagnetic properties, surpassing those of natural materials

Surface plasmon polariton-Learn about surface plasmon polaritons, electromagnetic waves that travel along the interface of a conductor and a dielectric, crucial for plasmonic devices

Electromagnetic metasurface-Understand how electromagnetic metasurfaces enable the manipulation of light at the nanoscale, with applications in imaging and holography

Spoof surface plasmon-Explore spoof surface plasmon polaritons, an artificial plasmonic effect used in novel photonic applications such as sensors and waveguides

Plasmonics-Gain a broad understanding of plasmonics, its principles, and its applications across various fields, from energy harvesting to biosensing

Superlens-Discover the concept of superlenses, which use plasmonic materials to break the diffraction limit and produce images with extraordinary resolution

Plasmonic nanolithography-Learn about plasmonic nanolithography, a technique that uses plasmonic effects for highresolution patterning of nanostructures

Spaser-This chapter introduces the concept of the spaser, a plasmonic counterpart to the laser, providing light amplification at the nanoscale

Flat lens-Study flat lenses, which offer compact alternatives to traditional curved lenses using plasmonic materials for enhanced optical performance

Nanolaser-Dive into the world of nanolasers, tiny lasers that leverage plasmonic effects to achieve unprecedented miniaturization and performance

Metamaterial absorber-Explore the design of plasmonic metamaterial absorbers, which are used in applications ranging from sensors to energy harvesting

Graphene plasmonics-This chapter covers the emerging field of graphene plasmonics, utilizing the unique properties of graphene for nextgeneration plasmonic devices

Surface plasmon-Understand the essential properties of surface plasmons and their applications in sensors, imaging, and other advanced technologies