Related papers: Efficient Paths for Local Counterdiabatic Driving

Efficient Paths for Local Counterdiabatic Driving

URL: http://arxiv.org/abs/2401.12287v2
Date: Wed, 22 May 2024 18:00:03 GMT
Title: Efficient Paths for Local Counterdiabatic Driving
Authors: Stewart Morawetz, Anatoli Polkovnikov,
Abstract summary: Local counterdiabatic driving (CD) provides a feasible approach for realizing approximate reversible/adiabatic processes. We describe a systematic method for altering the adiabatic path by adding extra local controls. We show that these methods provides dramatic improvement in the preparation of non-trivial GHZ ground states.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Local counterdiabatic driving (CD) provides a feasible approach for realizing approximate reversible/adiabatic processes like quantum state preparation using only local controls and without demanding excessively long protocol times. However, in many instances getting high accuracy of such CD protocols requires engineering very complicated new controls or pulse sequences. In this work, we describe a systematic method for altering the adiabatic path by adding extra local controls along which performance of local CD protocols is enhanced, both close to and far away from the adiabatic limit. We also identify an iterative procedure to improve the performance of local counterdiabatic driving further without any knowledge of the quantum wavefunction. We then show that these methods provides dramatic improvement in the preparation of non-trivial GHZ ground states of several different spin systems with both short-range and long-range interactions.

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