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Spread and spectral complexity in quantum spin chains: from integrability to chaos

Hugo A. Camargo, Kyoung-Bum Huh, Viktor Jahnke, Hyun-Sik Jeong, Keunyoung Kim, Mitsuhiro Nishida

2024Journal of High Energy Physics41 citationsDOIOpen Access PDF

Abstract

A bstract We explore spread and spectral complexity in quantum systems that exhibit a transition from integrability to chaos, namely the mixed-field Ising model and the next-to-nearest-neighbor deformation of the Heisenberg XXZ spin chain. We corroborate the observation that the presence of a peak in spread complexity before its saturation, is a characteristic feature in chaotic systems. We find that, in general, the saturation value of spread complexity post-peak depends not only on the spectral statistics of the Hamiltonian, but also on the specific state. However, there appears to be a maximal universal bound determined by the symmetries and dimension of the Hamiltonian, which is realized by the thermofield double state (TFD) at infinite temperature. We also find that the time scales at which the spread complexity and spectral form factor change their behaviour agree with each other and are independent of the chaotic properties of the systems. In the case of spectral complexity, we identify that the key factor determining its saturation value and timescale in chaotic systems is given by minimum energy difference in the theory’s spectrum. This explains observations made in the literature regarding its earlier saturation in chaotic systems compared to their integrable counterparts. We conclude by discussing the properties of the TFD which, we conjecture, make it suitable for probing signatures of chaos in quantum many-body systems.

Topics & Concepts

PhysicsCHAOS (operating system)Quantum chaosQuantumQuantum mechanicsSpin (aerodynamics)Theoretical physicsStatistical physicsQuantum dynamicsThermodynamicsComputer securityComputer scienceQuantum chaos and dynamical systemsQuantum many-body systemsMolecular spectroscopy and chirality
Spread and spectral complexity in quantum spin chains: from integrability to chaos | Litcius