8,357 research outputs found
Parity of Sets of Mutually Orthogonal Latin Squares
Every Latin square has three attributes that can be even or odd, but any two
of these attributes determines the third. Hence the parity of a Latin square
has an information content of 2 bits. We extend the definition of parity from
Latin squares to sets of mutually orthogonal Latin squares (MOLS) and the
corresponding orthogonal arrays (OA). Suppose the parity of an
has an information content of bits. We show that
. For the case corresponding to projective
planes we prove a tighter bound, namely when
is odd and when is even. Using the
existence of MOLS with subMOLS, we prove that if
then for all sufficiently large .
Let the ensemble of an be the set of Latin squares derived by
interpreting any three columns of the OA as a Latin square. We demonstrate many
restrictions on the number of Latin squares of each parity that the ensemble of
an can contain. These restrictions depend on and
give some insight as to why it is harder to build projective planes of order than for . For example, we prove that when it is impossible to build an for which all
Latin squares in the ensemble are isotopic (equivalent to each other up to
permutation of the rows, columns and symbols)
Some Implications on Amorphic Association Schemes
AMS classifications: 05E30, 05B20;amorphic association scheme;strongly regular graph;(negative) Latin square type;cyclotomic association scheme;strongly regular decomposition
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