Giant optical nonlinearity is observed under both continuous wave and pulsed excitation in a
deterministically coupled quantum dot-micropillar system, in a pronounced strong-coupling …

We present detuning-dependent spectral and decay-rate measurements to study the
difference between the spectral and dynamical properties of single quantum dots embedded …

Coupled clocks are a classic example of a synchronization system leading to periodic
collective oscillations. Already in 1665, Christiaan Huygens described this phenomenon as …

We theoretically analyze the temporal dynamics of strongly coupled quantum-dot–cavity
system driven by a resonant laser pulse and observe the signature of Rabi oscillation in the …

The Jaynes-Cummings (JC) model represents one of the simplest ways in which single
qubits can interact with single photon modes, leading to profound quantum phenomena like …

Two-level emitters are the main building blocks of photonic quantum technologies and are
model systems for the exploration of quantum optics in the solid state. Most interesting is the …

We explore the photon-number distribution of bimodal quantum-dot micropillar lasers with a
two-channel transition-edge sensor (TES) detection system. The two channels of the photon …

Strongly coupled quantum dot-cavity systems provide a non-linear configuration of
hybridized light-matter states with promising quantum-optical applications. Here, we …

A novel concept for on-chip quantum optics using an internal electrically pumped microlaser
is presented. The microlaser resonantly excites a quantum dot microcavity system operating …

This work reports on an investigation of the dynamics of 1.3 μ m epitaxial quantum dot (QD)
lasers on silicon subject to delayed optical feedback. Operating the device under different …