We have developed methods to control and manipulate quantum light directly on photonic chips.
We have performed quantum light manipulation within a fiber loop to generate linear cluster states of individually addressable photons produced using our quantum dot sources.
We explore the development of secure communication protocols using quantum light, pushing the boundaries of data security and privacy.
We explore the interference between the quantum light we generate in different conditions, including against a classical source of light, between two remote sources, and considering imperfect sources.
We analyze the different advantages of quantum dot in a micropillar cavity for their use in continuous variable quantum information processing.