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Quantum Simulators and Processors Based on Rydberg Atom Arrays
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- 1 Intro
- 2 Quantum processors based on cold neutral atoms
- 3 Atom-by-atom approach for building quantum matter Removing entropy by observation
- 4 Experimental setup
- 5 The dipole blockade: "coherent constraint"
- 6 Rydberg blockade in arrays
- 7 High-fidelity entanglement
- 8 Quantum simulator for Ising-type spin model
- 9 Adiabatic preparation of ordered states
- 10 Engineering broken symmetries by tuning the interactions
- 11 Benchmarking quantum simulator: Z order
- 12 Phase transition in a 51 atoms array
- 13 New physics: non-equilibrium many-body quantum dynamics
- 14 Kibble-Zurek Mechanism
- 15 Quantum Kibble-Zurek prediction for isolated systems
- 16 Scaling of the correlation length in Zz-order
- 17 Universality and physics beyond Kibble-Zurek
- 18 Scaling exponents for exotic phases
- 19 Scaling exponents across all phases
- 20 Outlook: new era of programmable quantum simulators
- 21 Optimization problem: maximum independent set
- 22 New trapping schemes: towards 2D arrays
- 23 Summary
- 24 Dynamics of large systems: understanding
