Basic Information
Maxwell Equations and Optical Properties of Materials, Plasmons At Planar Interfaces and Nanoparticles, Applications of Surface Plasmons, Near-field Microscope, Theoretical and Numerical Methods Of Nano-optics, Green S Functions in Electrodynamics, Quantum Systems In Nano-optical Fields, Interaction of Electron Beams and Plasmonic Particles, Introduction to Microscopic and Macroscopic Quantum Electrodynamics, Lamb Shifts and Casimir Forces, Nonlocality In Nano-optics, Nonlinear Nano-opitics and Strong-field Interactions. Learning Outcomes# At The End of The Course The Student Will Be Able To#_ - Understand in Depth The Principles of Nano-optics From Classical And Quantum Perspectives. - Know The Experimental and Theoretical Methods of Nano-optics. - Get Acquainted With Modern Applications of Nano-optics in Quantum Physics. - Understand Articles On This Rapidly Evolving Topic.
Faculty: Physics
|Graduate Studies
Pre-required courses
(114210 - Optics and 118122 - Quantum Mechanics 3)