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Explore the cutting-edge field of twistronics through this 55-minute lecture delivered by Prof. Yuan Cao from the University of California, Berkeley, as part of the Princeton Summer School for Condensed Matter Physics. Discover how real-time manipulation of twisted two-dimensional materials can be achieved on-chip, examining the fundamental physics behind twist-angle-dependent electronic properties in van der Waals heterostructures. Learn about the experimental techniques and theoretical frameworks used to control and measure the electronic behavior of twisted bilayer graphene and other moiré systems in real-time. Gain insights into the latest developments in twistronics research, including the technological challenges and opportunities for creating tunable electronic devices based on twisted 2D materials. Understand how this emerging field bridges condensed matter physics with practical applications in quantum electronics and next-generation computing technologies.
