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Inhomogeneous adiabatic preparation of a quantum critical ground state in two dimensions
arXiv
Authors: Ihor Sokolov, Francis A. Bayocboc, Marek M. Rams, Jacek Dziarmaga
Year
2024
Paper ID
66250
Status
Preprint
Abstract Read
~2 min
Abstract Words
196
Citations
N/A
Abstract
Adiabatic preparation of a critical ground state is hampered by the closing of its energy gap as the system size increases. However, this gap is directly relevant only for a uniform ramp, where a control parameter in the Hamiltonian is tuned uniformly in space towards the quantum critical point. Here, we consider inhomogeneous ramps in two dimensions: initially, the parameter is made critical at the center of a lattice, from where the critical region expands at a fixed velocity. In the 1D and 2D quantum Ising models, which have a well-defined speed of sound at the critical point, the ramp becomes adiabatic with a subsonic velocity. This subsonic ramp can prepare the critical state faster than a uniform one. Moreover, in both a model of p-wave paired 2D fermions and the Kitaev model, the critical dispersion is anisotropic - linear with a nonzero velocity in one direction and quadratic in the other - but the gap is still inversely proportional to the linear size of the critical region, with a coefficient proportional to the nonzero velocity. This suffices to make the inhomogeneous ramp adiabatic below a finite crossover velocity and superior to the homogeneous one.
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- This paper contributes to the Quantum Simulation research area in the Quantum Articles archive.
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- Adiabatic preparation of a critical ground state is hampered by the closing of its energy gap as the system size increases.
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