Chiral coupling, which allows directional interactions between quantum dots (QDs) and
photonic crystal waveguide modes, holds promise for enhancing the functionality of …

Chiral coupling, enabling directional interactions between quantum dots (QDs) and photonic
crystal waveguide modes, holds the promise for enhancing quantum information processing …

We report on the experimental study and numerical analysis of chiral light-matter coupling in
deterministically fabricated quantum dot (QD) waveguide structures. We apply in situ …

We study the polarization properties of light emitted by quantum dots that are embedded in
chiral photonic crystal structures made of achiral planar GaAs waveguides. A modification of …

Chiral emission, where the handedness of a transition dipole determines the direction in
which a photon is emitted, has recently been observed from atoms and quantum dots …

Chiral light–matter interaction between photonic nanostructures with quantum emitters
shows great potential to implement spin–photon interfaces for quantum information …

The goal of this thesis was to investigate light-matter interaction in nanophotonic devices
based on site-controlled pyramidal quantum dots (QD) in photonic crystal (PhC) cavities …

Defects in photonic crystals (PCs) can support localized light modes with extremely small
mode volumes. Depending on the symmetry of the PC, and the means of fabrication of the …

Deterministic integration of site-controlled quantum dots with photonic crystal waveguides is
demonstrated, which allows positioning the dots for optimal overlap with the waveguide …

In this work, we discuss a method to control the polarization anisotropy of spontaneous
emission from neutral excitons confined in quantum-dot-like nanostructures, namely single …