Flow of Charge and Heat in Quantum Critical Graphene
International Centre for Theoretical Sciences via YouTube
Overview
Explore a 48-minute lecture on the flow of charge and heat in quantum critical graphene, presented by Arindam Ghosh at the International Centre for Theoretical Sciences' Discussion Meeting on Quantum Many-Body Physics in the Age of Quantum Information. Delve into advanced concepts at the intersection of quantum many-body physics and quantum information, particularly focusing on the behavior of graphene in quantum critical states. Learn about the latest developments in noisy, intermediate-scale quantum (NISQ) devices and their implications for understanding quantum phases and materials. Gain insights into how entanglement structure and information scrambling contribute to our understanding of equilibrium and dynamical behavior in quantum systems. Part of a broader discussion meeting bringing together experts to explore the synergy between quantum physics and quantum computing, with special emphasis on discovering exotic quantum states that could serve as resources for future quantum computing applications.
Syllabus
Flow of Charge and Heat in Quantum Critical Graphene by Arindam Ghosh
Taught by
International Centre for Theoretical Sciences