Quantum simulation of Ising spins on Platonic graphs

Abstract: We present quantum simulation experiments of Ising-like spins on Platonic graphs, which are performed with two-dimensional arrays of Rydberg atoms and quantum-wire couplings. The quantum wires are used to couple otherwise uncoupled long-distance atoms, enabling topology-preserving transformtions of the three-dimensional graphs to the two-dimensional plane. We implement three Platonic graphs, tetrahedron, cube, and octahedron of Platonic solids, and successfully probe their ground many-body spin configurations … Show more

“…While such an emulation approach eliminates any overhead in control necessities or qubit numbers, it strongly restricts the use cases of a specific quantum simulator to problems rooted in the device-dependent Hamiltonian. Here, neutral atoms trapped in optical tweezer arrays with engineered geometries in two dimensions, laser coupled to Rydberg states to induce interactions [5], are among the most promising platforms [6][7][8][9][10][11][12]. Large system sizes have been demonstrated with long coherence times [12,13], enabling the quantum simulation of quantum magnets both in equilibrium [14,15] and dynamically [16].…”

Spatially programmable spin interactions in neutral atom arrays

“…While such an emulation approach eliminates any overhead in control necessities or qubit numbers, it strongly restricts the use cases of a specific quantum simulator to problems rooted in the device-dependent Hamiltonian. Here, neutral atoms trapped in optical tweezer arrays with engineered geometries in two dimensions, laser coupled to Rydberg states to induce interactions [5], are among the most promising platforms [6][7][8][9][10][11][12]. Large system sizes have been demonstrated with long coherence times [12,13], enabling the quantum simulation of quantum magnets both in equilibrium [14,15] and dynamically [16].…”

Spatially programmable spin interactions in neutral atom arrays