General Theory of Chiral State Conversion in Non-Hermitian Systems

Explore the General Theory of Chiral State Conversion in Non-Hermitian Systems in this 36-minute lecture by Kyrylo Snizhko from the International Centre for Theoretical Sciences. Delve into advanced concepts at the intersection of condensed matter physics and quantum information as part of the "Condensed Matter Meets Quantum Information" program. Gain insights into how quantum phases of condensed matter, such as superconductors and topological insulators, can serve as substrates for quantum information processing. Examine the potential of chiral edge states, fractional charges, and non-abelian anyons in quantum Hall systems for encoding and manipulating quantum information with topological protection. Understand the implications of non-Hermitian systems in the context of chiral state conversion, bridging the gap between theoretical foundations and cutting-edge research in quantum computation and condensed matter physics.

General Theory of Chiral State Conversion in Non-Hermitian Systems by Kyrylo Snizhko