Offres de stage et propositions de thèse
From qubit noise to dissipative baths of electrons: how to take advantage of imperfect hardware

Domaines
Condensed matter
Nouveaux états électroniques de la matière corrélée
Nonequilibrium statistical physics
Quantum information theory and quantum technologies
Non-equilibrium Statistical Physics

Type de stage
Théorique, numérique
Activité en entreprise

Corporate activity

Check with your teaching staff that the internship meets the criteria expected for your research master's internship, if you wish to include it in this diploma.

Description
Noise in quantum computers is usually considered negatively as it destroys quantum information exponentially fast and therefore poses huge constraints on the duration or depth of quantum algorithm. However, noise is also a source of dissipation, which is a fundamental aspect in condensed matter physics: for instance, dissipation is often instrumental in driving physical systems to equilibrium or at least to a steady state. It turns out that noise can possibly be used to one’s advantage by using advanced algorithms. In this internship, we will explore how to take advantage of qubit noise to build quantum algorithms for the study of systems of interacting fermions coupled to dissipative baths.

Contact
Thomas Ayral
Laboratoire : Eviden Quantum Lab -
Equipe : Eviden Quantum Lab
Site Web de l'équipe
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