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Tits group

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v t e

Ingroup theory, the Tits group ²F₄(2)′, named for Jacques Tits (French: [tits]), is a finite simple groupoforder

   2¹¹ · 3³ · 5² · 13 = 17,971,200.

This is the only simple group that is a derivative of a group of Lie type that is not a group of Lie type in any series from exceptional isomorphisms. It is sometimes considered a 27th sporadic group.

The Ree groups ²F₄(2²ⁿ⁺¹) were constructed by Ree (1961), who showed that they are simple if n ≥ 1. The first member ²F₄(2) of this series is not simple. It was studied by Jacques Tits (1964) who showed that it is almost simple, its derived subgroup ²F₄(2)′ of index 2 being a new simple group, now called the Tits group. The group ²F₄(2) is a group of Lie type and has a BN pair, but the Tits group itself does not have a BN pair. The Tits group is member of the infinite family ²F₄(2²ⁿ⁺¹)′ of commutator groups of the Ree groups, and thus by definition not sporadic. But because it is also not strictly a group of Lie type, it is sometimes regarded as a 27th sporadic group.^[1]

The Schur multiplier of the Tits group is trivial and its outer automorphism group has order 2, with the full automorphism group being the group ²F₄(2).

The Tits group occurs as a maximal subgroup of the Fischer group Fi₂₂. The group ²F₄(2) also occurs as a maximal subgroup of the Rudvalis group, as the point stabilizer of the rank-3 permutation action on 4060 = 1 + 1755 + 2304 points.

The Tits group is one of the simple N-groups, and was overlooked in John G. Thompson's first announcement of the classification of simple N-groups, as it had not been discovered at the time. It is also one of the thin finite groups.

The Tits group was characterized in various ways by Parrott (1972, 1973) and Stroth (1980).

Wilson (1984) and Tchakerian (1986) independently found the 8 classes of maximal subgroups of the Tits group as follows:

L₃(3):2 Two classes, fused by an outer automorphism. These subgroups fix points of rank 4 permutation representations.

2.[2⁸].5.4 Centralizer of an involution.

L₂(25)

2².[2⁸].S₃

A₆.2² (Two classes, fused by an outer automorphism)

5²:4A₄

The Tits group can be defined in terms of generators and relations by

${\displaystyle a^{2}=b^{3}=($ab)^{13}=[a,b]^{5}=[a,bab]^{4}=((ab)^{4}ab^{-1})^{6}=1,\,}

where [a, b] is the commutator a⁻¹b⁻¹ab. It has an outer automorphism obtained by sending (a, b) to (a, b(ba)⁵b(ba)⁵).

• Parrott, David (1972), "A characterization of the Tits' simple group", Canadian Journal of Mathematics, 24 (4): 672–685, doi:10.4153/cjm-1972-063-0, ISSN 0008-414X, MR 0325757
• Parrott, David (1973), "A characterization of the Ree groups ²F₄(q)", Journal of Algebra, 27 (2): 341–357, doi:10.1016/0021-8693(73)90109-9, ISSN 0021-8693, MR 0347965
• Ree, Rimhak (1961), "A family of simple groups associated with the simple Lie algebra of type (F₄)", Bulletin of the American Mathematical Society, 67: 115–116, doi:10.1090/S0002-9904-1961-10527-2, ISSN 0002-9904, MR 0125155
• Stroth, Gernot (1980), "A general characterization of the Tits simple group", Journal of Algebra, 64 (1): 140–147, doi:10.1016/0021-8693(80)90138-6, ISSN 0021-8693, MR 0575787
• Tchakerian, Kerope B. (1986), "The maximal subgroups of the Tits simple group", Pliska Studia Mathematica Bulgarica, 8: 85–93, ISSN 0204-9805, MR 0866648
• Tits, Jacques (1964), "Algebraic and abstract simple groups", Annals of Mathematics, Second Series, 80 (2): 313–329, doi:10.2307/1970394, ISSN 0003-486X, JSTOR 1970394, MR 0164968
• Wilson, Robert A. (1984), "The geometry and maximal subgroups of the simple groups of A. Rudvalis and J. Tits", Proceedings of the London Mathematical Society, Third Series, 48 (3): 533–563, doi:10.1112/plms/s3-48.3.533, ISSN 0024-6115, MR 0735227

• ATLAS of Group Representations — The Tits Group