Dezfouli, Mohsen KamandarVasco, Juan PabloHughes, Stephen2018-12-132018-12-132018-12-132018-01-0110.1117/12.2320049https://infoscience.epfl.ch/handle/20.500.14299/152224WOS:000451765300006We describe some recent developments in the efficient modelling of light-matter interactions in plasmonics and nanophotonics. In particular, we describe an efficient finite-difference time-domain (FDTD) method to compute regularized quasinormal modes in resonant photonic structures, which have a wide range of applications in classical and quantum nanophotonics, and present methods to compute disorder-induced localization modes (Anderson localization) in slow light photonic crystal waveguides.Opticsnanophotonicsquasinormal modeslight-matter interactionsfdtdplasmonicsphotonic crystalsbloch mode expansionslow light waveguidesanderson localizationcrystal wave-guidestime-independent perturbationsingle-photon sourcequasi-normal modesquantum dotsslow-lightcompletenessgenerationtransporttext::conference output::conference proceedings::conference paper