English

Pair entanglement in dimerized spin-s chains

Quantum Physics 2016-12-14 v2

Abstract

We examine the pair entanglement in the ground state of finite dimerized spin-ss chains interacting through anisotropic XYXY couplings immersed in a transverse magnetic field, by means of a self-consistent pair mean field approximation. The approach, which makes no a priori assumptions on the pair states, predicts, for sufficiently low coupling between pairs, 2s2s distinct dimerized phases for increasing fields below the pair factorizing field, separated by spin parity breaking phases. The dimerized phases lead to approximate magnetization and pair entanglement plateaus, while the parity breaking phases are characterized by weak pair entanglement but non-negligible entanglement of the pair with the rest of the system. These predictions are confirmed by the exact results obtained in finite s=1s=1 and s=3/2s=3/2 chains. It is also shown that for increasing values of the spin ss, the entanglement of an isolated pair, as measured by the negativity, rapidly saturates in the anisotropic XYXY case but increases as s1/2s^{1/2} in the XXXX case, reflecting a distinct single spin entanglement spectrum.

Keywords

Cite

@article{arxiv.1610.00056,
  title  = {Pair entanglement in dimerized spin-s chains},
  author = {A. Boette and R. Rossignoli and N. Canosa and J. M. Matera},
  journal= {arXiv preprint arXiv:1610.00056},
  year   = {2016}
}

Comments

10 pages, 8 figures, final version

R2 v1 2026-06-22T16:07:19.254Z