# The quantum conditional Entropy Power Inequality

## Giacomo De Palma

created by gelli on 11 Sep 2017

19 sep 2017 -- 17:00   [open in google calendar]

Aula Seminari Dipartimento di Matematica di Pisa

Abstract.

Abstract. The Entropy Power Inequality states that the Shannon differential entropy of the convolution of two probability densities in Rn with given entropies is minimum when they are both Gaussian. This functional inequality is fundamental in information theory and was conjectured by C. Shannon himself, although he only proved that Gaussian densities are critical points; a full proof was later given by A. Stam, using an interpolation argument along the heat semigroup.

In this talk, we illustrate a quantum version of the Entropy Power Inequality, where probability densities on Rn are replaced with quantum states of the electromagnetic radiation, the Shannon entropy is replaced with the von Neumann entropy and the convolution operation with a natural beam-splitter'' operation. Moreover, we allow for the presence of a conditional external memory'', which would add no difficulty in the commutative scenario, but is rather delicate in the quantum scenario. The difficulty is due to the existence of entanglement, i.e. the existence of joint quantum states of the electromagnetic radiation and the memory where the two systems cannot be described independently, but must be necessarily described with a joint global state. Our proof is based on a quantum version of Stam's interpolation, where new ideas must be introduced to handle non-commutative features.

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