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Spherical Deformation for One-dimensional Quantum Systems

Strongly Correlated Electrons 2010-12-30 v6 Other Condensed Matter
Authors: Andrej Gendiar , Roman Krcmar , Tomotoshi Nishino
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Abstract

System-size dependence of the ground-state energy E^N is investigated for N-site one-dimensional (1D) quantum systems with open boundary condition, where the interaction strength decreases towards the both ends of the system. For the spinless Fermions on the 1D lattice we have considered, it is shown that the finite-size correction to the energy per site, which is defined as E^N / N - \lim_{N \to \infty} E^N / N, is of the order of 1 / N^2 when the reduction factor of the interaction is expressed by a sinusoidal function. We discuss the origin of this fast convergence from the view point of the spherical geometry.

Keywords

fermion field theory and gross-neveu model spin systems ground state physics

Cite

@article{arxiv.0810.0622,
  title  = {Spherical Deformation for One-dimensional Quantum Systems},
  author = {Andrej Gendiar and Roman Krcmar and Tomotoshi Nishino},
  journal= {arXiv preprint arXiv:0810.0622},
  year   = {2010}
}

Comments

16 pages, 8 figures, the paper includes Errata

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