Summary.
We study the numerical solution of singularly perturbed Schrö-dinger equations with time-dependent Hamiltonian. Based on a reformulation of the equations, we derive time-reversible numerical integrators which can be used with step sizes that are substantially larger than with traditional integration schemes. A complete error analysis is given for the adiabatic case. To deal with avoided crossings of energy levels, which lead to non-adiabatic behaviour, we propose an adaptive extension of the methods which resolves the sharp transients that appear in non-adiabatic state transitions.
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Received November 12, 2001 / Revised version received May 8, 2002 / Published online October 29, 2002
Mathematics Subject Classification (1991): 65L05, 65M15, 65M20, 65L70.
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Jahnke, T., Lubich, C. Numerical integrators for quantum dynamics close to the adiabatic limit. Numer. Math. 94, 289–314 (2003). https://doi.org/10.1007/s00211-002-0421-1
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DOI: https://doi.org/10.1007/s00211-002-0421-1