PHYS-454: Quantum optics and quantum informationThis lecture describes advanced concepts and applications of quantum optics. It emphasizes the connection with ongoing research, and with the fast growing field of quantum technologies. The topics cov
MSE-482: Optical properties of materialsStudents will study fundamental principles of light-matter interaction and apply classical and quantum mechanical models for quantitative estimates. Optical phenomena in glasses, organic/inorganic sem
EE-567: Semiconductor devices IIStudents will learn about understanding the fundamentals and applications of emerging nanoscale devices, materials
and concepts. Remark: at least 5 students should be enrolled for the course to be giv
ME-469: Nano-scale heat transferIn this course we study heat transfer (and energy conversion) from a microscopic perspective. First we focus on understanding why classical laws (i.e. Fourier Law) are what they are and what are their
MSE-486: Organic electronic materialsThis course will introduce students to the field of organic electronic materials. The goal of this course is to discuss the origin of electronic properties in organic materials, charge transport mecha
MSE-807: Excitonic effects in 2D heterostructuresOptically excited 2D materials, host electron-hole pairs called excitons with high binding energies and long lifetimes. Deterministically stacked 2D materials form vdW heterostructures with versatile
MSE-478: Organic semiconductorsOrganic semiconductors emerge as key materials for the digitization of our society. Students will learn about the working principles of thin organic film devices and understand the relationship betwee