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Paper detail

Efficient Magnus-type integrators for solar energy conversion in Hubbard models

Strongly interacting electrons in solids are generically described by Hubbardtype models, and the impact of solar light can be modeled by an additional time-dependence. This yields a finite dimensional system of ordinary differential equations (ODE)s of Schrödinger type, which can be solved numerically by exponential time integrators of Magnus type. The efficiency may be enhanced by combining these with operator splittings. We will discuss several different approaches of employing exponential-based methods in conjunction with an adaptive Lanczos method for the evaluation of matrix exponentials and compare their accuracy and efficiency. For each integrator, we use defect-based local error estimators to enable adaptive time-stepping. This serves to reliably control the approximation error and reduce the computational effort

preprint2021arXivOpen access
Winfried AuzingerJuliette DuboisKarsten HeldHarald HofstätterTobias JaweckiAnna KauchOthmar KochKarolina KropielnickaPranav SinghClemens Watzenböck
math.NANumerical Analysis
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Winfried AuzingerJuliette DuboisKarsten HeldHarald HofstätterTobias JaweckiAnna KauchOthmar KochKarolina KropielnickaPranav SinghClemens Watzenböck

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