Worldwide, enormous efforts are directed toward the development of the so‐called quantum
internet. Turning this long‐sought‐after dream into reality is a great challenge that will …

We review distinct features arising from the unique nature of the carrier-phonon coupling in
self-assembled semiconductor quantum dots. Because of the discrete electronic energy …

While several numerical techniques are available for predicting the dynamics of non-
Markovian open quantum systems, most struggle with simulations for very long memory and …

To coherently control a few-level quantum emitter, typically pulses with an energy resonant
to the transition energy are applied, making use of the Rabi mechanism, while a single off …

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

Single-photon emitters in solid-state systems are important building blocks for scalable
quantum technologies. Recently, quantum light emitters have been discovered in the wide …

We present a driving scheme for solid-state quantum emitters, referred to as Notch-filtered
Adiabatic Rapid Passage (NARP), that utilizes frequency-swept pulses containing a spectral …

The quantum regression theorem (QRT) is the most widely used tool for calculating multitime
correlation functions for the assessment of quantum emitters. It is an approximate method …

A quantum computer has the potential to revolutionize multiple industries by enabling a
drastic speed-up relative to classical computers for certain quantum algorithms and …

The preparation of excitonic states in semiconductor quantum dots is a prerequisite for the
application of quantum dots in quantum information technology, eg, as source of single or …