ABSTRACT
The characterisation of quantum correlations, also known as entanglement, is central to quantum information theory. This chapter devotes to techniques and criteria based on second moments to detect the entanglement of Gaussian states. It also devotes to the description of possible ways to quantify such quantum correlations, bearing in mind that the determination of entanglement monotones of clear operational significance is still an open problem, even in the restricted arena of Gaussian states. The chapter addresses the issues of entanglement distillation and quantum non-locality tests, in whose contexts we shall confront other non-Gaussian operations and states, such as photon subtracted states. It introduces a general criteria based on higher order statistical moments, which will be put to use to detect the quantum correlations of an entangled cat-like state and addresses the issues of entanglement distillation and quantum non-locality tests.
