Generation and recombination of time-frequency entangled photon pairsGeneración y recombinación de parejas de fotones entrelazados en tiempo-frecuencia

van der Meulen, J. Single-photon emission by semiconductor quantum rings in a photonic crystal. Controlling the properties of single photon emitters via the purcell effect.

As illustrations of the benefits of exciting with quantum light, we have shown how to realize pure nonclassical steady states by driving a cavity with a single- photon source, and

Resonance fluorescence is, indeed, ideally suited to pioneer a comprehensive analysis of frequency photon correlations since it is obtained in the strong- driving regime of an

Here we investigate the output photon statistics of optical nonlinearities for the regime where the anharmonicity of their frequency spectrum becomes comparable to the frequency

We measure the differential cross sections dσ=dE T with respect to the photon transverse energy E T and dσ=dΔR μγ with respect to the separation of the photon from the nearest

Triply differential cross sections are calculated for one-photon double ionization of neon and argon at various photon energies and electron energy sharings by using a

A theory of correlations between N photons of given frequencies and detected at given time delays is presented.. These correlation functions are usually too cumbersome to be

The resulting EWS delay between the s and d partial waves, observed experimentally for the first time in a cc transition, allows for a simple, quasi-classical interpretation: due to