Factor-Group-Generated Polar Spaces and (Multi-)Qudits
Abstract
Recently, a number of interesting relations have been discovered between generalised Pauli/Dirac groups and certain finite geometries. Here, we succeeded in finding a general unifying framework for all these relations. We introduce gradually necessary and sufficient conditions to be met in order to carry out the following programme: Given a group , we first construct vector spaces over , a prime, by factorising over appropriate normal subgroups. Then, by expressing in terms of the commutator subgroup of , we construct alternating bilinear forms, which reflect whether or not two elements of commute. Restricting to , we search for ``refinements'' in terms of quadratic forms, which capture the fact whether or not the order of an element of is . Such factor-group-generated vector spaces admit a natural reinterpretation in the language of symplectic and orthogonal polar spaces, where each point becomes a ``condensation'' of several distinct elements of . Finally, several well-known physical examples (single- and two-qubit Pauli groups, both the real and complex case) are worked out in detail to illustrate the fine traits of the formalism.
Cite
@article{arxiv.0903.5418,
title = {Factor-Group-Generated Polar Spaces and (Multi-)Qudits},
author = {Hans Havlicek and Boris Odehnal and Metod Saniga},
journal= {arXiv preprint arXiv:0903.5418},
year = {2009}
}
Comments
20 pages, 6 figures, 1 table; Version 2 - slightly polished, updated references; Version 3 - published version in SIGMA