On Thursday June 13 the Institute for Quantum Computing (IQC) and Perimeter Institute for Theoretical Physics (PI) will participate in the one-day Many-Body States and Dynamics Workshop II. The goal of the workshop is to describe ongoing efforts to experimentally realize quantum many-body states and dynamics and discuss interesting classes of states and dynamics that could be targeted. Experimentalists working on several platforms (such as photons atom and ion traps superconducting qubits exciton-polaritons or NMR) and theoreticians specialized in many-body theory (entanglement topological order gauge theories criticality chaos error correction holography) and numerical simulations (exact diagonalization Monte Carlo DMRG tensor networks) will meet for a morning workshop to identify and discuss common interests.
Format results
-
Simulating an expanding universe on Google's Bristlecone
Guifre Vidal Alphabet (United States)
-
Preparing Critical and Thermofield Double States on a Quantum Computer
Timothy Hsieh Perimeter Institute for Theoretical Physics
-
TensorNetwork: accelerating tensor network computations and improving the coding experience
Ashley Milsted California Institute of Technology
-
Maximally sensitive sets of states
Daniel Gottesman University of Maryland, College Park
-
Quantum simulation of 2D and 3D spin models in a linear chain of ions
Kazi-Rajibul Islam Institute for Quantum Computing (IQC)
-
Polariton Graph Network
Na Young Kim Institute for Quantum Computing (IQC)
-
-
Quantum Simulation of Lattice Field Theories with Microwave Photons
Christopher Wilson Institute for Quantum Computing (IQC)