We characterize the additive singularity preserving almost surjective maps on Mn (F), the algebra of all n×n matrices over a field F with char F=0. We also describe additive invertibility preserving surjective ...We characterize the additive singularity preserving almost surjective maps on Mn (F), the algebra of all n×n matrices over a field F with char F=0. We also describe additive invertibility preserving surjective maps on Mn (F) and give examples showing that all the assunlptions in these two theorems are indispensable.展开更多
Let X be a connected non-normal 4-valent arc-transitive Cayley graph on a dihedral group Dn such that X is bipartite, with the two bipartition sets being the two orbits of the cyclic subgroup within Dn. It is shown th...Let X be a connected non-normal 4-valent arc-transitive Cayley graph on a dihedral group Dn such that X is bipartite, with the two bipartition sets being the two orbits of the cyclic subgroup within Dn. It is shown that X is isomorphic either to the lexicographic product Cn[2K1] with n 〉 4 even, or to one of the five sporadic graphs on 10, 14, 26, 28 and 30 vertices, respectively.展开更多
基金supported in part by a grant from the Ministry of Science of Slovenia
文摘We characterize the additive singularity preserving almost surjective maps on Mn (F), the algebra of all n×n matrices over a field F with char F=0. We also describe additive invertibility preserving surjective maps on Mn (F) and give examples showing that all the assunlptions in these two theorems are indispensable.
基金Supported by "Agencija za raziskovalno dejavnost Republike Slovenije", Research Program P1-0285Slovenian-Hungarian Intergovernmental ScientificTechnological Cooperation Project (Grant No. SI-2/2007)
文摘Let X be a connected non-normal 4-valent arc-transitive Cayley graph on a dihedral group Dn such that X is bipartite, with the two bipartition sets being the two orbits of the cyclic subgroup within Dn. It is shown that X is isomorphic either to the lexicographic product Cn[2K1] with n 〉 4 even, or to one of the five sporadic graphs on 10, 14, 26, 28 and 30 vertices, respectively.