Krylov complexity in ergodically constrained nonintegrable transverse-field Ising model
- URL: http://arxiv.org/abs/2512.20285v1
- Date: Tue, 23 Dec 2025 11:50:01 GMT
- Title: Krylov complexity in ergodically constrained nonintegrable transverse-field Ising model
- Authors: Gaurav Rudra Malik, Jeet Sharma, Rohit Kumar Shukla, S. Aravinda, Sunil Kumar Mishra,
- Abstract summary: We partition the chain into two equal segments within which the spins interact with different coupling strengths.<n>The ratio of these couplings defines an inhomogeneity parameter, whose variation away from unity leads to constrained dynamics.<n>We further examine the consequences for operator growth in Krylov space and for entanglement generation in the system's eigenstates.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The nonintegrable transverse-field Ising model is a common platform for studying ergodic quantum dynamics. In this work, we introduce a simple variant of the model in which this ergodic behaviour is suppressed by introducing a spatial inhomogeneity in the interaction strengths. For this we partition the chain into two equal segments within which the spins interact with different coupling strengths. The ratio of these couplings defines an inhomogeneity parameter, whose variation away from unity leads to constrained dynamics. We characterize this crossover using multiple diagnostics, such as the long-time saturation of out-of-time-ordered correlators, level-spacing statistics, and the spectral form factor. We further examine the consequences for operator growth in Krylov space and for entanglement generation in the system's eigenstates. Together, these results demonstrate that introducing a macroscopic inhomogeneity in coupling strengths provides a minimal, disorder-free route to breaking ergodicity in this specific model of interacting spins.
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