English

An efficient quantum algorithm for finding hidden parabolic subgroups in the general linear group

Quantum Physics 2014-11-04 v2

Abstract

In the theory of algebraic groups, parabolic subgroups form a crucial building block in the structural studies. In the case of general linear groups over a finite field FqF_q, given a sequence of positive integers n1,...,nkn_1, ..., n_k, where n=n1+...+nkn=n_1+...+n_k, a parabolic subgroup of parameter (n1,...,nk)(n_1, ..., n_k) in GLn(Fq)GL_n(F_q) is a conjugate of the subgroup consisting of block lower triangular matrices where the iith block is of size nin_i. Our main result is a quantum algorithm of time polynomial in logq\log q and nn for solving the hidden subgroup problem in GLn(Fq)GL_n(F_q), when the hidden subgroup is promised to be a parabolic subgroup. Our algorithm works with no prior knowledge of the parameter of the hidden parabolic subgroup. Prior to this work, such an efficient quantum algorithm was only known for the case n=2n=2 (A. Denney, C. Moore, and A. Russell (2010), Quantum Inf. Comput., Vol. 10, pp. 282-291), and for minimal parabolic subgroups (Borel subgroups), for the case when qq is not much smaller than nn (G. Ivanyos: Quantum Inf. Comput., Vol. 12, pp. 661-669).

Keywords

Cite

@article{arxiv.1406.6511,
  title  = {An efficient quantum algorithm for finding hidden parabolic subgroups in the general linear group},
  author = {Thomas Decker and Gábor Ivanyos and Raghav Kulkarni and Youming Qiao and Miklos Santha},
  journal= {arXiv preprint arXiv:1406.6511},
  year   = {2014}
}

Comments

18 pages; appeared at MFCS'14

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