Stefano Siccardi scite author profile

We demonstrate, in the regime of ultrastrong matter-field coupling, the strong connection between the dynamical Casimir effect (DCE) and the performance of quantum-information protocols. Our results are illustrated by means of a realistic quantum communication channel and show that the DCE is a fundamental limit for quantum computation and communication and that novel schemes are required to implement ultrafast and reliable quantum gates. Strategies to partially counteract the DCE are also discussed.

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Actin quantum automata: Communication and computation in molecular networks

Siccardi

Adamatzky

2015

Nano Communication Networks

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Matter-wave interferometry: towards antimatter interferometers

Sala

Castelli

Giammarchi

et al. 2015

J. Phys. B: At. Mol. Opt. Phys.

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Starting from an elementary model and refining it to take into account more realistic effects, we discuss the limitations and advantages of matter-wave interferometry in different configurations. We focus on the possibility to apply this approach to scenarios involving antimatter, such as positrons and positronium atoms. In particular, we investigate the Talbot-Lau interferometer with material gratings and discuss in details the results in view of the possible experimental verification.

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