Nitrogen-Vacancy Plasmonics: Plasmonic Control of Diamond Quantum Devices
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Explore a research presentation examining how plasmonic metal nanoparticles can enhance nitrogen-vacancy (NV) centers in diamond for quantum technology applications. Delve into quantum-optical modeling of NV-plasmonic interactions, focusing on how gold and silver nanoparticles manipulate optical fields at the nanoscale beyond light's diffraction limit. Learn about breakthrough approaches for signal enhancement and nanoscale control that are essential for advancing room-temperature quantum computing, communication, biosensing, and medical imaging technologies based on NV centers. Understand how theoretical models align with experimental measurements from existing literature, providing valuable insights into the future of diamond quantum devices.
Syllabus
Nitrogen-vacancy plasmonics: Plasmonic control of diamond quantum devices - Harini Hapuarachchi RMIT
Taught by
MonashPhysicsAndAstronomy