Extremal points of the quantum set in the CHSH scenario: conjectured analytical solution

Abstract: Quantum mechanics may revolutionise many aspects of modern information processing as it promises significant advantages in several fields such as cryptography, computing and metrology. Quantum cryptography for instance allows us to implement protocols which are device-independent, i.e. they can be proven security under fewer assumptions. These protocols rely on using devices producing non-local statistics and ideally these statistics would correspond to extremal points of the quantum set in the probability space. However, even in the CHSH scenario (the simplest non-trivial Bell scenario) we do not have a full understanding of the extremal quantum points. In fact, there are only a couple of analytic families of such points. Our first contribution is to introduce two new families of analytical quantum extremal points by providing solutions to two new families of Bell functionals. In the second part we focus on developing an analytical criteria for extremality in the CHSH scenario. A well-known Tsirelson-Landau-Masanes criterion only applies to points with uniform marginals, but a generalisation has been suggested in a sequence of works by Satoshi Ishizaka. We combine these conditions into a standalone conjecture, explore their technical details and discuss their suitability. Based on the understanding acquired, we propose a new set of conditions with an elegant mathematical form and an intuitive physical interpretation. Finally, we verify that both sets of conditions give correct predictions on the new families of quantum extremal points.