Renormalization Group and Quantum Error Correction

Explore the connections between renormalization group techniques and quantum error correction in this comprehensive lecture by Nima Lashkari at the International Centre for Theoretical Sciences. Delve into advanced topics at the intersection of quantum information theory, quantum field theory, and gravity as part of a broader program on these subjects. Examine how concepts from quantum information theory, such as quantum error correction, have led to breakthroughs in quantum gravity problems like the black hole information paradox. Investigate the application of gravitational insights to information scrambling in chaotic quantum systems. Learn about the role of entanglement in characterizing phases of quantum matter and how quantum information structures have provided new perspectives on quantum field theories. Gain insights into cutting-edge research areas including the emergence of spacetime, complexity growth in gravity, multiparty entanglement in holography, and tensor network models in condensed matter and quantum gravity.