Semiconductor quantum dot molecules (QDMs) are systems composed of two or more
closely spaced and interacting QDs. QDMs are receiving much attention both as playground …

Energy transfer within photosynthetic systems can display quantum effects such as
delocalized excitonic transport. Recently, direct evidence of long-lived coherence has been …

Transport phenomena at the nanoscale are of interest due to the presence of both quantum
and classical behavior. In this work, we demonstrate that quantum transport efficiency can …

The role of quantum coherence in the dynamics of photosynthetic energy transfer in
chromophoric complexes is not fully understood. In this work, we quantify the biological …

Ultra‐fast nano‐optics is a comparatively young and rapidly growing field of research aiming
at probing, manipulating and controlling ultrafast optical excitations on nanometer length …

Lateral quantum coupling between two self-assembled (In, Ga) As quantum dots has been
observed. Photon statistics measurements between the various excitonic and biexcitonic …

The linear combination of atomic orbitals (LCAO) is a standard method for studying solids
and molecules, it is also known as the tight-binding (TB) method. In most of the …

The full blossoming of quantum technologies requires the availability of easy-to-prepare
materials where quantum coherences can be effectively initiated, controlled, and exploited …

We present an optical study of two closely stacked self-assembled InAs/GaAs quantum dots.
The energy spectrum and correlations between photons subsequently emitted from a single …

Filling a gap in the literature, this up-to-date introduction to the field provides an overview of
current experimental techniques, basic theoretical concepts, and sample fabrication …