Abstract
Continuously variable quantum information and communication technologies are based on the encoding of information in field amplitude and phase quadratures. Non-linear parametric processes enable the generation of quantum states of light involving numerous spectrotemporal modes, organized in quantum networks exhibiting Gaussian entanglement. These networks can be exploited for quantum communication and information technologies. Spatial, spectral and temporal multiplexing will be studied for the generation of such networks, as well as the introduction of non-Gaussian operations, essential for quantum computation.
