Higher order splitting methods with modified integrators for a class of Hamiltonian systems

Anne Kv{\ae}rn{\o}; Asif Mushtaq; K{\aa}re Olaussen

arxiv: 1301.7736 · v2 · pith:I6LBUTRFnew · submitted 2013-01-31 · 🧮 math.NA · cs.NA· physics.comp-ph

Higher order splitting methods with modified integrators for a class of Hamiltonian systems

Asif Mushtaq , Anne Kv{\ae}rn{\o} , K{\aa}re Olaussen This is my paper

classification 🧮 math.NA cs.NAphysics.comp-ph

keywords hamiltonianordersplittingaccuracyclasshigherrelativesystems

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We discuss systematic extensions of the standard (St{\"o}rmer-Verlet) splitting method for differential equations of Hamiltonian mechanics, with relative accuracy of order $\tau^2$ for a timestep of length $\tau$, to higher orders in $\tau$. We present some splitting schemes, with all intermediate timesteps real and positive, which increase the relative accuracy to order $\tau^{N}$ (for N=4, 6, and 8) for a large class of Hamiltonian systems.

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Higher order splitting methods with modified integrators for a class of Hamiltonian systems

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