Exploring Noisy Quantum Computers: Current Capabilities and Discoveries
Offered By: ICTP Condensed Matter and Statistical Physics via YouTube
Course Description
Overview
Explore the potential of current noisy quantum computers in addressing complex physics problems through this 59-minute colloquium by Lev Ioffe, a Senior Staff Researcher at Google AI Quantum. Delve into the capabilities of quantum computers with around 100 qubits and learn how they can tackle condensed matter and many-body physics questions that classical computers struggle to simulate efficiently. Gain insights into the physics of superconducting quantum computing chips, the limitations on their coherence, and the types of physics problems well-suited for these devices. Discover recent findings on the unexpected resilience of bound states in decorated spin chains, showcasing how quantum computers are approaching significant scientific breakthroughs. Understand the formation of highly non-ergodic phases and their implications for quantum computing research.
Syllabus
CMSP COLLOQUIUM: What can we learn now from noisy quantum computers?
Taught by
ICTP Condensed Matter and Statistical Physics
Related Courses
Topology in Condensed Matter: Tying Quantum KnotsDelft University of Technology via edX Atomic and Optical Physics Iā Part 3: Atom-Light Interactions 1 -- Matrix elements and quantized field
Massachusetts Institute of Technology via edX Atomic and Optical Physics I ā Part 5: Coherence
Massachusetts Institute of Technology via edX Atomic and Optical Physics: Quantum States and Dynamics of Photons
Massachusetts Institute of Technology via edX Atomic and Optical Physics: Atom-photon interactions
Massachusetts Institute of Technology via edX