contents
Theory of semiconductor quantum dots
- single-dot lasing, superradiance and two-photon emission.
- Theory of phonon-dressed light matter interactions and resonance fluorescence in quantum dot cavity systems.
- Resonantly excited quantum dots: superior non-classical light sources for quantum information.
- Generation of time-bin entangled photon pairs and hyper entanglement.
- Generation of polarization entangled-photon pairs.- QDs in nanowires.
- The physics of large quantum dots in photonic nanostructures.
- Enhancing photon-photon and spin-photon interaction with cavity-QED.
- Nanophotonic interface for quantum dot spin qubits.
- Cavity QED effects and transform limited photons.
- Deterministic single-photon sources based on quantum dot microlenses.
- Photonic integrated circuits with quantum dots.
- Ultrafast manipulation of spins in quantum dots.
- Coherent control of dark excitons in quantum dots.
- Hybrid quantum dot-atomic systems.
- Generation of quantum dot spin entanglement.