Related papers: Operator growth and Krylov Complexity in Bose-Hubbard Model

Operator growth and Krylov Complexity in Bose-Hubbard Model

URL: http://arxiv.org/abs/2306.05542v2
Date: Mon, 1 Jan 2024 18:20:22 GMT
Title: Operator growth and Krylov Complexity in Bose-Hubbard Model
Authors: Arpan Bhattacharyya, Debodirna Ghosh, Poulami Nandi
Abstract summary: We study Krylov complexity of a one-dimensional Bosonic system, the celebrated Bose-Hubbard Model. We use the Lanczos algorithm to find the Lanczos coefficients and the Krylov basis. Our results capture the chaotic and integrable nature of the system.
Score: 0.25602836891933073
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study Krylov complexity of a one-dimensional Bosonic system, the celebrated Bose-Hubbard Model. The Bose-Hubbard Hamiltonian consists of interacting bosons on a lattice, describing ultra-cold atoms. Apart from showing superfluid-Mott insulator phase transition, the model also exhibits both chaotic and integrable (mixed) dynamics depending on the value of the interaction parameter. We focus on the three-site Bose Hubbard Model (with different particle numbers), which is known to be highly mixed. We use the Lanczos algorithm to find the Lanczos coefficients and the Krylov basis. The orthonormal Krylov basis captures the operator growth for a system with a given Hamiltonian. However, the Lanczos algorithm needs to be modified for our case due to the instabilities instilled by the piling up of computational errors. Next, we compute the Krylov complexity and its early and late-time behaviour. Our results capture the chaotic and integrable nature of the system. Our paper takes the first step to use the Lanczos algorithm non-perturbatively for a discrete quartic bosonic Hamiltonian without depending on the auto-correlation method.

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