The A-like matrices for hypercube and cycle

The paper is composed of two parts. The first part is an exposition of the article The A- like matrices for a hypercube by Stefco Miklavi and Paul Terwilliger which appeared in the Electronic Journal of Linear Algebra ISSN 1081-3810, Volume 22, pp. 796-809 last Augut 2011. In the second part, as ins...

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Main Author: Dela Cruz, Harris R.
Format: text
Language:English
Published: Animo Repository 2013
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Online Access:https://animorepository.dlsu.edu.ph/etd_masteral/4365
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Institution: De La Salle University
Language: English
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Summary:The paper is composed of two parts. The first part is an exposition of the article The A- like matrices for a hypercube by Stefco Miklavi and Paul Terwilliger which appeared in the Electronic Journal of Linear Algebra ISSN 1081-3810, Volume 22, pp. 796-809 last Augut 2011. In the second part, as inspired by the above mentioned paper, we give the A-like matrices for a cycle. Let {u100000}(X R) denote a distance-regular graph and let A 2 MatX(R) denote the adjacency matrix of {u100000}. We define a matrix B 2 MatX(R) to be A-like whenever both (i) BA = AB and (ii) for all x y 2 X that are not equal or adjacent, the (x y)-entry of B is zero. Let L denote the subspace of MatX(R) consisting of the A-like elements. Then L is decomposed as direct sum of its symmetric part and antisymmetric part denoted as Lsym and Lasym, respectively. Let D denote a positive integer and let QD denote the D-dimensional hypercube. For {u100000} = QD, Miklavic and Terwilliger in [6] found a basis for Lsym and Lasym and showed that the dimensions are D + 1 and {u100000}D 2 respectively. Let k 3 denote an integer and let Ck denote the cycle with k vertices. Observe that the cycle C4 is isomorphic to Q2. For {u100000} = C3, we found that Lsym has dimension 4 while Lasym has dimension 1. For k 5, we found a basis for Lsym and Lasym and showed that their dimensions are 2 and 1, respectively.