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Paper detail

Simulating a ring-like Hubbard system with a quantum computer

We develop a workflow to use current quantum computing hardware for solving quantum many-body problems, using the example of the fermionic Hubbard model. Concretely, we study a four-site Hubbard ring that exhibits a transition from a product state to an intrinsically interacting ground state as hopping amplitudes are changed. We locate this transition and solve for the ground state energy with high quantitative accuracy using a variational quantum algorithm executed on an IBM quantum computer. Our results are enabled by a variational ansatz that takes full advantage of the maximal set of commuting $\mathbb{Z}_2$ symmetries of the problem and a Lanczos-inspired error mitigation algorithm. They are a benchmark on the way to exploiting near term quantum simulators for quantum many-body problems.

preprint2021arXivOpen access
Philippe SuchslandPanagiotis Kl. BarkoutsosIvano TavernelliMark H. FischerTitus Neupert
cond-mat.str-elphysics.comp-phquant-ph
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Philippe SuchslandPanagiotis Kl. BarkoutsosIvano TavernelliMark H. FischerTitus Neupert

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