Theoretical and Computational Physics
Analytical modeling and numerical simulation of electromagnetic waves; transient analysis of semiconductor lasers; wave dynamics in active and passive plasmonic devices, photonic crystals, phononic crystals, and structured nanomaterials; dispersion analysis of nano-optical waveguides; control of light absorption and emission by plasmonic nanostructures; effective medium theory for metamaterials; wave transport in non-reciprocal media; calculations of optical force on complex particles; first-principles calculations on electronic properties of semiconductors and oxide materials; flow of glassy polymer nanofilms; electron transport in solid-state quantum devices; formation of nano-structures in strained thin films.
Dr K.H. Fung (firstname.lastname@example.org) – Photonic crystals, plasmonic nanostructures, metamaterials, structured nanomaterials, phononic crystals
Dr C.H. Lam (email@example.com) – Flow of glassy polymer nanofilms; electron transport in solid-state quantum devices; formation of nano-structures in strained thin films
Dr X. Luo (firstname.lastname@example.org) – First principles calculation, Molecular dynamics, 2D materials, Interface and Heterostructures, Ferroelectrics, Phonon vibration and Raman spectroscopy
Dr N. Onofrio (Nicolas.email@example.com) – Molecular dynamics, density functional theory, atomistic electrochemistry, high-throughput calculations, electronic structure