We investigate collineation groups of a finite projective plane of odd order fixing an oval and having two orbits on it, one of which is assumed to be primitive. The situation in which there exists a fixed triangle off the oval is considered in detail. Our main result is the following. Theorem. Let π be a finite projective plane of odd order n containing an oval Ω. If a collineation group G of π satisfies the properties: (a) G fixes Ω and the action of G on Ω yields precisely two orbits Ω1 and Ω2, (b) G has even order and a faithful primitive action on Ω2, (c) G fixes neither points nor lines but fixes a triangle ABC in which the points A, B, C are not on the oval Ω, then n∈ {7, 9, 27}, the orbit Ω2 has length 4 and G acts naturally on Ω2 as A4 or S4. Each order n∈ {7, 9, 27} does furnish at least one example for the above situation; the determination of the planes and the groups which do occur is complete for n = 7, 9; the determination of the planes is still incomplete for n = 27.

Intransitive collineation groups of ovals fixing a triangle / Aguglia, A.; Bonisoli, A.. - In: JOURNAL OF COMBINATORIAL THEORY. SERIES A. - ISSN 0097-3165. - STAMPA. - 102:2(2003), pp. 273-282. [10.1016/S0097-3165(03)00011-6]

Intransitive collineation groups of ovals fixing a triangle

Aguglia, A.;
2003-01-01

Abstract

We investigate collineation groups of a finite projective plane of odd order fixing an oval and having two orbits on it, one of which is assumed to be primitive. The situation in which there exists a fixed triangle off the oval is considered in detail. Our main result is the following. Theorem. Let π be a finite projective plane of odd order n containing an oval Ω. If a collineation group G of π satisfies the properties: (a) G fixes Ω and the action of G on Ω yields precisely two orbits Ω1 and Ω2, (b) G has even order and a faithful primitive action on Ω2, (c) G fixes neither points nor lines but fixes a triangle ABC in which the points A, B, C are not on the oval Ω, then n∈ {7, 9, 27}, the orbit Ω2 has length 4 and G acts naturally on Ω2 as A4 or S4. Each order n∈ {7, 9, 27} does furnish at least one example for the above situation; the determination of the planes and the groups which do occur is complete for n = 7, 9; the determination of the planes is still incomplete for n = 27.
2003
Intransitive collineation groups of ovals fixing a triangle / Aguglia, A.; Bonisoli, A.. - In: JOURNAL OF COMBINATORIAL THEORY. SERIES A. - ISSN 0097-3165. - STAMPA. - 102:2(2003), pp. 273-282. [10.1016/S0097-3165(03)00011-6]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/1295
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