Sparsity dependence of Krylov state complexity in the SYK model

Abstract

We study the Krylov state complexity of the Sachdev-Ye-Kitaev (SYK) model for N 28 Majorana fermions with q-body fermion interaction with q=4,6,8 for a range of sparse parameter k that controls the number of remaining terms in the original SYK model after sparsification. The critical value of k below which the model ceases to be holographic, denoted kc, has been subject of several recent investigations. Using Krylov complexity as a probe, we find that the peak value of complexity does not change as we increase k beyond k kmin at large temperatures. We argue that this behavior is related to the change in the holographic nature of the Hamiltonian in the sparse SYK-type models such that the model is holographic for all k kmin ≈ kc. Our results provide a novel way to determine kc in SYK-type models.

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