Explore a 22-minute lecture on "Maximal steady-state Entanglement Through Autonomous Evolution" presented by Shishir Khandelwal at the International Centre for Theoretical Sciences. This talk is part of the "Quantum Trajectories" program organized by Michel Bauer, Cedric Bernardin, Raphael Chetrite, and Abhishek Dhar. Delve into cutting-edge research at the intersection of quantum physics and information theory, examining how autonomous evolution can lead to maximal steady-state entanglement. The lecture contributes to the program's broader focus on quantum trajectories, quantum control, measurement-induced phase transitions, and quantum information and computation. Gain insights from this theoretical exploration that bridges physics and applied mathematics in the context of the second quantum revolution, where quantum-based encryption, communication, and computing are becoming increasingly tangible.
Maximal Steady-State Entanglement Through Autonomous Evolution
International Centre for Theoretical Sciences via YouTube
Overview
Syllabus
Maximal steady-state Entanglement Through Autonomous Evolution by Shishir Khandelwal
Taught by
International Centre for Theoretical Sciences
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