https://qi.lip6.fr/fr/people/luke-mortimer/Luke MortimerHugo Blox Builder (https://hugoblox.com)fr© 2022 LIP6 Quantum Information TeamThu, 17 Apr 2025 00:00:00 +0000https://qi.lip6.fr/media/icon_hudf2fdaa51677944daa4f50609104ef9a_13950_512x512_fill_lanczos_center_3.pnghttps://qi.lip6.fr/fr/people/luke-mortimer/https://qi.lip6.fr/fr/seminars/2025-04-17-luke-mortimer/Thu, 17 Apr 2025 00:00:00 +0000https://qi.lip6.fr/fr/seminars/2025-04-17-luke-mortimer/<h2 id="certifying-steady-state-properties-of-open-quantum-systems">Certifying steady-state properties of open quantum systems</h2> <p>Ce séminaire, donné par Luke Mortimer, aura lieu le 17 April 2025, à 14:0. Il aura lieu en salle Not specified.</p> <p>Vous trouverez un plan du campus <a href="https://sciences.sorbonne-universite.fr/vie-de-campus-sciences/accueil-vie-pratique/plan-du-campus" target="_blank" rel="noopener">ici</a>.</p> <h2 id="résumé">Résumé</h2> <p>In this talk, I&rsquo;ll discuss how to use convex optimisation techniques to determine what happens in open quantum systems when they settle into a steady state, more specifically using a hierarchy of semidefinite programs to get certified bounds on any observable over such states. I&rsquo;ll then show how this can be applied to a variety of many-body systems, like one-dimensional chains up to hundreds of qubits and some two-dimensional systems. Even with only moderate computational effort, our bounds are nearly as precise as the best variational methods, making this a practical tool for exploring steady-state properties in large quantum systems.</p>