Anna Prosekov
Fast parallel plasmonic direct-write nanofabrication represents a transformative approach in modern nanotechnology, offering unparalleled precision and efficiency in creating nanostructures. This method harnesses the unique properties of plasmonic lenses enhanced by metasurfaces to achieve high-speed patterning of substrates with nanometer-scale resolution. By manipulating surface plasmon resonances, these lenses enable precise control over light-matter interactions, facilitating rapid prototyping and large-scale production of nanoscale devices and functional structures. This abstract explores the principles, applications, and future prospects of fast parallel plasmonic direct-write nanofabrication, highlighting its potential impact across various fields including nanophotonics, biotechnology, and materials science. As advancements continue, integrating artificial intelligence and exploring novel materials promise to further enhance the capabilities and broaden the applications of this innovative nanofabrication technique.