Projective special linear group is simple: Difference between revisions

This article gives the statement, and possibly proof, of a particular group or type of group (namely, Projective special linear group (?)) satisfying a particular group property (namely, Simple group (?)).

Statement

Let ${\displaystyle k}$ be a field and ${\displaystyle n}$ be a natural number greater than ${\displaystyle 1}$. Then, the projective special linear group ${\displaystyle PSL_{n}(k)}$ is a simple group provided one of these conditions holds:

• ${\displaystyle n\geq 3}$.
• ${\displaystyle k}$ has at least four elements.

Facts used

1. Special linear group is perfect: Under the same conditions (${\displaystyle n\geq 3}$ or ${\displaystyle k}$ has at least four elements), the special linear group ${\displaystyle SL_{n}(k)}$ is a perfect group: it equals its own derived subgroup.
2. Perfectness is quotient-closed: The quotient of a perfect group by a normal subgroup is perfect.
3. Abelian normal subgroup of core-free maximal subgroup is contranormal implies derived subgroup of whole group is monolith

Related facts

Related facts about special linear group and projective special linear group

• Special linear group is perfect
• Special linear group is quasisimple
• Projective special linear group equals alternating group in only finitely many cases

Related facts about simplicity of linear groups

• Projective symplectic group is simple
• Projective special orthogonal group for bilinear form of positive Witt index is simple
• projective special orthogonal group over reals is simple

Proof

The proof proceeds in the following steps:

1. ${\displaystyle PSL_{n}(k)}$ satisfies the hypotheses for fact (3): Consider the natural action of ${\displaystyle PSL_{n}(k)}$ on the projective space ${\displaystyle \mathbb {P} ^{n-1}(k)}$. This is a primitive group action, and the stabilizer of any point is thus a core-free maximal subgroup. PLACEHOLDER FOR INFORMATION TO BE FILLED IN: [SHOW MORE]
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2. The commutator subgroup of ${\displaystyle PSL_{n}(k)}$ is contained in every nontrivial normal subgroup of ${\displaystyle PSL_{n}(k)}$: This follows from the previous step and fact (3).
3. ${\displaystyle PSL_{n}(k)}$ equals its own commutator subgroup when ${\displaystyle n\geq 3}$ or ${\displaystyle k}$ has at least four elements: This follows from facts (1) and (2).
4. ${\displaystyle PSL_{n}(k)}$ is simple when ${\displaystyle n\geq 3}$ or ${\displaystyle k}$ has at least four elements: : This follows from the last two steps.