Explore groundbreaking research on entanglement renormalization circuits in quantum computing through this conference talk presented at the 18th Theory of Quantum Computation Conference (TQC 2023). Discover how to prepare large-scale entangled states using quantum circuits, with a specific focus on solving the long-standing mystery of scale-invariant entanglement renormalization circuits for chiral topological order. Learn about the innovative MERAQLE (MERA with quasi-local evolution) approach, which combines conventional multi-scale entanglement renormalization ansatz circuits with quasi-local evolution to prepare various chiral topologically ordered states, including those equivalent to Laughlin's bosonic fractional quantum Hall state and states with Ising-like non-Abelian fusion rules. Delve into cutting-edge theoretical quantum information science presented by researcher Guanyu Zhu at the University of Aveiro, Portugal, as part of a leading international conference dedicated to advancing quantum computation, communication, and cryptography.
Entanglement Renormalization Circuits for Chiral Topological Order
Squid: Schools for Quantum Information Development via YouTube
Overview
Syllabus
Entanglement Renormalization Circuits for Chiral Topological Order - Guanyu Zhu | TQC 2023
Taught by
Squid: Schools for Quantum Information Development
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