Abstract
There is a significant ongoing effort in realizing quantum annealing with different physical platforms. The challenge is to achieve a fully programmable quantum device featuring coherent adiabatic quantum dynamics. Here we show that combining the well-developed quantum simulation toolbox for Rydberg atoms with the recently proposed Lechner–Hauke–Zoller (LHZ) architecture allows one to build a prototype for a coherent adiabatic quantum computer with all-to-all Ising interactions and, therefore, a platform for quantum annealing. In LHZ an infinite-range spin-glass is mapped onto the low energy subspace of a spin-1/2 lattice gauge model with quasi-local four-body parity constraints. This spin model can be emulated in a natural way with Rubidium and Caesium atoms in a bipartite optical lattice involving laser-dressed Rydberg–Rydberg interactions, which are several orders of magnitude larger than the relevant decoherence rates. This makes the exploration of coherent quantum enhanced optimization protocols accessible with state-of-the-art atomic physics experiments.
Highlights
There is a significant ongoing effort in realizing quantum annealing with different physical platforms
Adopting the LHZ architecture[12], the infinite-range spin glass is translated to a lattice spin model, where new physical spins s^ðziÞ represent the relative orientation of two logical spins s~ðznÞs~ðzmÞ of equation (1)
If two logical spins are aligned in parallel, that is, j""i or j##i, the corresponding physical spin is in state j þ i, while if the logical spins are aligned anti-parallel, that is, j"#i or j#"i, the physical spin is in state j À i
Summary
There is a significant ongoing effort in realizing quantum annealing with different physical platforms. In the Rydberg quantum annealer illustrated, qubits are encoded in two long-lived hyperfine ground states j þ si, j À si of 87Rb and j À ai, j þ ai of 133Cs, representing physical and ancilla spins, respectively.
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