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Stabilizing volume-law entangled states of fermions and qubits using local dissipation

We analyze a general method for the dissipative preparation and stabilization of volume-law entangled states of fermionic and qubit lattice systems in 1D (and higher dimensions for fermions). Our approach requires minimal resources: nearest-neighbour Hamiltonian interactions that obey a suitable chiral symmetry, and the realization of just a single, spatially-localized dissipative pairing interaction. In the case of a qubit array, the dissipative model we study is not integrable and maps to an interacting fermionic problem. Nonetheless, we analytically show the existence of a unique pure entangled steady state (a so-called rainbow state). Our ideas are compatible with a number of experimental platforms, including superconducting circuits and trapped ions.

preprint2022arXivOpen access
Andrew PocklingtonYu-Xin WangYariv YanayAashish A. Clerk
cond-mat.mes-hallquant-ph
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Andrew PocklingtonYu-Xin WangYariv YanayAashish A. Clerk

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