Half-transitive_graph Knowpia

In the mathematical field of graph theory, a half-transitive graph is a graph that is both vertex-transitive and edge-transitive, but not symmetric.^[1] In other words, a graph is half-transitive if its automorphism group acts transitively upon both its vertices and its edges, but not on ordered pairs of linked vertices.

Every connected symmetric graph must be vertex-transitive and edge-transitive, and the converse is true for graphs of odd degree,^[2] so that half-transitive graphs of odd degree do not exist. However, there do exist half-transitive graphs of even degree.^[3] The smallest half-transitive graph is the Holt graph, with degree 4 and 27 vertices.^[4]^[5]

References edit

^ Gross, J.L.; Yellen, J. (2004). Handbook of Graph Theory. CRC Press. p. 491. ISBN 1-58488-090-2.
^ Babai, L (1996). "Automorphism groups, isomorphism, reconstruction". In Graham, R; Grötschel, M; Lovász, L (eds.). Handbook of Combinatorics. Elsevier.
^ Bouwer, Z. (1970). "Vertex and Edge Transitive, But Not 1-Transitive Graphs". Canadian Mathematical Bulletin. 13: 231–237. doi:10.4153/CMB-1970-047-8.
^ Biggs, Norman (1993). Algebraic Graph Theory (2nd ed.). Cambridge: Cambridge University Press. ISBN 0-521-45897-8.
^ Holt, Derek F. (1981). "A graph which is edge transitive but not arc transitive". Journal of Graph Theory. 5 (2): 201–204. doi:10.1002/jgt.3190050210..

[handbook-1] Gross, J.L.; Yellen, J. (2004). Handbook of Graph Theory. CRC Press. p. 491. ISBN 1-58488-090-2.

[babai-2] Babai, L (1996). "Automorphism groups, isomorphism, reconstruction". In Graham, R; Grötschel, M; Lovász, L (eds.). Handbook of Combinatorics. Elsevier.

[3] Bouwer, Z. (1970). "Vertex and Edge Transitive, But Not 1-Transitive Graphs". Canadian Mathematical Bulletin. 13: 231–237. doi:10.4153/CMB-1970-047-8.

[biggs-4] Biggs, Norman (1993). Algebraic Graph Theory (2nd ed.). Cambridge: Cambridge University Press. ISBN 0-521-45897-8.

[5] Holt, Derek F. (1981). "A graph which is edge transitive but not arc transitive". Journal of Graph Theory. 5 (2): 201–204. doi:10.1002/jgt.3190050210..

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Graph families defined by their automorphisms
distance-transitive	→	distance-regular	←	strongly regular
↓
symmetric (arc-transitive)	←	t-transitive, $t \geq 2$		skew-symmetric
↓
_{(if connected)} vertex- and edge-transitive	→	edge-transitive and regular	→	edge-transitive
↓		↓		↓
vertex-transitive	→	regular	→	_{(if bipartite)} biregular
↑
Cayley graph	←	zero-symmetric		asymmetric

Summary

References edit