Documentation

Mathlib.GroupTheory.Subgroup.Simple

Simple groups #

This file defines IsSimpleGroup G, a class indicating that a group has exactly two normal subgroups.

Main definitions #

IsSimpleGroup G, a class indicating that a group has exactly two normal subgroups.

Tags #

subgroup, subgroups

class IsSimpleGroup (G : Type u_1) [Group G] extends Nontrivial :

A Group is simple when it has exactly two normal Subgroups.

exists_pair_ne : ∃ (x : G) (y : G), x ≠ y
eq_bot_or_eq_top_of_normal : ∀ (H : Subgroup G), H.Normal → H = ⊥ ∨ H = ⊤
Any normal subgroup is either ⊥ or ⊤

Instances

theorem IsSimpleGroup.eq_bot_or_eq_top_of_normal {G : Type u_1} [Group G] [self : IsSimpleGroup G] (H : Subgroup G) :

H.Normal → H = ⊥ ∨ H = ⊤

Any normal subgroup is either ⊥ or ⊤

class IsSimpleAddGroup (A : Type u_2) [AddGroup A] extends Nontrivial :

An AddGroup is simple when it has exactly two normal AddSubgroups.

exists_pair_ne : ∃ (x : A) (y : A), x ≠ y
eq_bot_or_eq_top_of_normal : ∀ (H : AddSubgroup A), H.Normal → H = ⊥ ∨ H = ⊤
Any normal additive subgroup is either ⊥ or ⊤

Instances

theorem IsSimpleAddGroup.eq_bot_or_eq_top_of_normal {A : Type u_2} [AddGroup A] [self : IsSimpleAddGroup A] (H : AddSubgroup A) :

H.Normal → H = ⊥ ∨ H = ⊤

Any normal additive subgroup is either ⊥ or ⊤

theorem AddSubgroup.Normal.eq_bot_or_eq_top {G : Type u_1} [AddGroup G] [IsSimpleAddGroup G] {H : AddSubgroup G} (Hn : H.Normal) :

H = ⊥ ∨ H = ⊤

theorem Subgroup.Normal.eq_bot_or_eq_top {G : Type u_1} [Group G] [IsSimpleGroup G] {H : Subgroup G} (Hn : H.Normal) :

H = ⊥ ∨ H = ⊤

instance IsSimpleAddGroup.instIsSimpleOrderAddSubgroup {C : Type u_3} [AddCommGroup C] [IsSimpleAddGroup C] :

IsSimpleOrder (AddSubgroup C)

Equations

⋯ = ⋯

instance IsSimpleGroup.instIsSimpleOrderSubgroup {C : Type u_3} [CommGroup C] [IsSimpleGroup C] :

IsSimpleOrder (Subgroup C)

Equations

⋯ = ⋯

theorem IsSimpleAddGroup.isSimpleAddGroup_of_surjective {G : Type u_1} [AddGroup G] {H : Type u_3} [AddGroup H] [IsSimpleAddGroup G] [Nontrivial H] (f : G →+ H) (hf : Function.Surjective ⇑f) :

IsSimpleAddGroup H

theorem IsSimpleGroup.isSimpleGroup_of_surjective {G : Type u_1} [Group G] {H : Type u_3} [Group H] [IsSimpleGroup G] [Nontrivial H] (f : G →* H) (hf : Function.Surjective ⇑f) :

IsSimpleGroup H