Title | How to observe quantum magic |
---|---|
Speaker | Tobias Haug (Technology Innovation Institute) |
Date&time |
📅 Thursday, 29 August 🕓 11:00 (Rome) |
Location | Aula 5 (SISSA, via Bonomea, 265) |
Abstract |
Nonstabilizerness or ‘magic’ characterizes the amount of non-Clifford
operations needed to prepare quantum states. It is a crucial resource for quantum computing and a necessary condition for quantum advantage. However, our understanding of magic had been limited to a few qubits due to a lack of efficient methods to study magic. Recently, we established efficient methods to compute magic for quantum computers [1,2] and matrix product states [3,4].This way, we explore the magic of quantum computers, and determine its fundamental limits for highly mixed states. Further, we study the magic of critical many-body systems, as well as uncover the universal behavior of magic in dynamical systems. Finally, we discuss how to combine Clifford circuits and matrix product states to simulate volume-law entanglement and magic at the same time. Our works provide a powerful tool to probe the computational complexity of quantum many-body systems. [1] T. Haug, M.S. Kim, PRX Quantum 4 (2023) [2] T. Haug, S. Lee, M.S. Kim, Phys. Rev. Lett. 132 (2024) [3] T. Haug, L. Piroli, Phys. Rev. B 107 (2023) [4] T. Haug, L. Piroli, Quantum 7 (2023) |
🔗 Past seminars |
🔗 Past journal club meetings |