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Explore cutting-edge quantum computing implementations and simulations with insights from a leading expert in quantum optics and information theory.
Explore the groundbreaking MIP* = RE theorem with MIT's Anand Natarajan, delving into its implications for quantum computing, complexity theory, and the foundations of mathematics.
Explore cutting-edge experimental techniques and recent breakthroughs in studying black holes, from stellar-mass to supermassive, and their impact on our understanding of space-time.
Explore quantum simulation of black holes with Juan Maldacena, delving into cutting-edge physics research and its potential implications for our understanding of the universe.
Dive into quantum simulation's frontier, exploring large-scale entanglement with Peter Zoller. Uncover cutting-edge research and insights on this complex quantum phenomenon.
Explore quantum de Finetti theorem's role in deriving stochastic independence from symmetry principles, with applications to quantum information theory and black hole information puzzle.
Explore cutting-edge digital quantum simulation algorithms with expert Andrew Childs, delving into advanced techniques for modeling complex quantum systems.
Explore the intricate relationship between complexity theory and gravitational physics in this advanced workshop, delving into cutting-edge research at the intersection of quantum information and theoretical physics.
Explore the mathematical intricacies of random walks on unitary groups, delving into their incompressibility properties and implications for quantum information theory.
Explore the significance of errors in mathematical proofs with Avi Wigderson, delving into their role in advancing quantum information and physics research.
Explore the potential of shallow quantum circuits in quantum information processing, focusing on their applications and limitations in various computational tasks.
Explore quantum entanglement sculpting and non-Abelian topological phase preparation through measurements in this advanced physics workshop led by Harvard's Ashvin Vishwanath.
Explore intervalley coherence in condensed matter physics, focusing on moiré patterns and their implications for quantum phenomena. Gain insights from UC Berkeley expert Mike Zaletel.
Explore semiconductor moiré materials and their impact on correlations, topology, and magnetism with Stanford researcher Ben Feldman in this advanced physics lecture.
Dive into the fascinating world of twisted trilayer graphene, exploring its unique properties and potential applications in condensed matter physics and beyond.
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