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Explore measurement-induced entanglement phenomena between quantum spin chains in this 58-minute conference talk delivered by M. Oshikawa from ISSP University of Tokyo as part of the "Effective theories for many-body systems out of equilibrium" conference series organized by NCCR SwissMAP. Delve into the theoretical framework governing how quantum measurements can create and manipulate entanglement between separate spin chain systems, examining the fundamental principles that govern these non-equilibrium quantum many-body phenomena. Investigate the mathematical formalism and physical mechanisms underlying measurement-induced correlations, analyzing how the act of measurement itself becomes a tool for engineering quantum entanglement across spatially separated quantum systems. Gain insights into the broader implications of these effects for understanding quantum many-body dynamics in out-of-equilibrium scenarios and their potential applications in quantum information processing and quantum control protocols.
