A major challenge in the development of atom–photon and photon–photon quantum gates is
to provide output photons in a pure quantum state, as opposed to incoherent superpositions …

A homodyne measurement technique is demonstrated that enables direct observation of the
coherence and phase of light that passed through a coupled quantum dot (QD)-microcavity …

In the framework of optical quantum computing and communications, a major objective
consists in building receiving nodes implementing conditional operations on incoming …

The strong-coupling regime of cavity quantum electrodynamics (QED) represents the light–
matter interaction at the fully quantum level. Adding a single photon shifts the resonance …

Quantum dots in cavities have been shown to be very bright sources of indistinguishable
single photons. Yet the quantum interference between two such bright quantum dot sources …

Quantum dots in photonic crystals are interesting both as a testbed for fundamental cavity
quantum electrodynamics (QED) experiments and as a platform for quantum and classical …

We describe how magnetic fields can be exploited to control dipole-induced transparency in
quantum dot cavity systems. Coupling a linearly-polarized microcavity mode to two spin …

We report here a nanostructure that traps single quantum dots for studying strong cavity-
emitter coupling. The nanostructure is designed with two elliptical holes in a thin silver patch …

We study the polarization properties of quantum dot (QD) emission coupled with the
fundamental cavity modes. A rotation of polarization axis and a change of polarization …

We have computed the spectrum emitted spontaneously by a quantum dot coupled to an
arbitrarily detuned single mode cavity, taking into account pure dephasing processes. We …