Diffusion constants from the recursion method
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Understanding the transport behavior of quantum many-body systems constitutes an important physical endeavor, both experimentally and theoretically. While a reliable classification into normal and anomalous dynamics is known to be notoriously difficult for a given microscopic model, even the seemingly simpler evaluation of transport coefficients in diffusive systems continues to be a hard task in practice. This fact has motivated the development and application of various sophisticated methods and is also the main issue of this paper. We particularly take a barely used strategy, which is based Lanczos coefficients, and demonstrate that this strategy allows for the accurate calculation of diffusion coefficients for different paradigmatic examples, including magnetization transport in nonintegrable spin-1/2 chains and ladders as well as energy transport in the mixed-field Ising model in one dimension.
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Compressed minimum-purity time evolution for late-time quantum dynamics
CoMPuTE approximates late-time quantum dynamics via minimum-purity closure of local reduced density matrices, shown on energy diffusion in the mixed-field Ising model and Floquet evolution but limited for XXZ transpor...
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