Optical multidimensional coherent spectroscopy (MDCS) is a nonlinear spectroscopy
technique where a material is excited by a series of laser pulses to produce a spectrum as a …

We discuss phonon-induced non-Markovian and Markovian features in QD-based quantum
nanooptics. We cover lineshapes in linear absorption experiments, phonon-induced …

The role of structural and dynamical disorder in semiconductors is a topic of fundamental
relevance because of its contribution to the spectral line shape of the photoluminescence …

Monolayers of transition metal dichalcogenides (TMDC) became one of the most studied
nanostructures in the last decade. Combining two different TMDC monolayers results in a …

CdSe nanoplatelets can be synthesized with different lateral sizes; very small nanoplatelets
have almost quantum dot like features (almost discrete exciton states), while very large ones …

As in the case of a free particle, the initial growth of a broad (relative to lattice spacing)
wavepacket placed on an ordered lattice is slow (its time derivative has zero initial slope) …

Carriers such as electrons and holes inside the Brillouin zone of complex semiconducting
materials can form bound states (excitons, biexcitons, etc.). For obtaining the corresponding …

Optical coherent multidimensional spectroscopy is a powerful technique for unraveling
complex and congested spectra by spreading them across multiple dimensions, removing …

This book provides an introduction to optical multidimensional coherent spectroscopy, a
relatively new method of studying materials based on using ultrashort light pulses to perform …

The geometry-dependent energy transfer rate from an electrically pumped inorganic
semiconductor quantum well into an organic molecular layer is studied theoretically. We …