1210.1701 (Alexander Weiße)
Alexander Weiße
Iterative methods that operate with the full Hamiltonian matrix in the untrimmed Hilbert space of a finite system continue to be important tools for the study of one and two dimensional quantum spin models, in particular in the presence of frustration. To reach sensible system sizes such numerical calculations heavily depend on the use of symmetries. We describe a divide-and-conquer strategy for implementing translation symmetries of finite spin clusters, which efficiently uses and extends the "sublattice coding" of H.Q. Lin. With this method the Hamiltonian matrix can be generated on-the-fly in each matrix vector multiplication and problem dimensions beyond 10^11 become accessible.
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http://arxiv.org/abs/1210.1701
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