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Polynomial scaling enhancement in ground-state preparation of Ising spin models via counter-diabatic driving

The preparation of ground states of spin systems is a fundamental operation in quantum computing and serves as the basis of adiabatic quantum computing. This form of quantum computation is subject to the adiabatic theorem which in turn poses a fundamental speed limit. We show that by employing diabatic transitions via counter diabatic driving a less strict requirement on adiabaticity applies. We demonstrate a scaling advantage from local and multi-spin counter diabatic driving in the ground-state fidelity compared to their adiabatic counterpart, for different Ising spin models.

preprint2021arXivOpen access
Andreas HartmannGlen Bigan MbengWolfgang Lechner
quant-ph
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Andreas HartmannGlen Bigan MbengWolfgang Lechner

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