Lie subalgebras #
This file defines Lie subalgebras of a Lie algebra and provides basic related definitions and results.
Main definitions #
LieSubalgebra
LieSubalgebra.incl
LieSubalgebra.map
LieHom.range
LieEquiv.ofInjective
LieEquiv.ofEq
LieEquiv.ofSubalgebras
Tags #
lie algebra, lie subalgebra
A Lie subalgebra of a Lie algebra is submodule that is closed under the Lie bracket. This is a sufficient condition for the subset itself to form a Lie algebra.
Instances For
The zero algebra is a subalgebra of any Lie algebra.
Equations
- instInhabitedLieSubalgebra R L = { default := 0 }
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- instCoeLieSubalgebraSubmoduleToSemiringToCommSemiringToAddCommMonoidToAddCommGroupToModule R L = { coe := LieSubalgebra.toSubmodule }
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- (_ : AddSubgroupClass (LieSubalgebra R L) L) = (_ : AddSubgroupClass (LieSubalgebra R L) L)
A Lie subalgebra forms a new Lie ring.
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A Lie subalgebra inherits module structures from L
.
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Equations
- (_ : IsCentralScalar R₁ ↥L') = (_ : IsCentralScalar R₁ ↥L'.toSubmodule)
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- (_ : IsScalarTower R₁ R ↥L') = (_ : IsScalarTower R₁ R ↥L'.toSubmodule)
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- (_ : IsNoetherian R ↥L') = (_ : IsNoetherian R ↥L'.toSubmodule)
A Lie subalgebra forms a new Lie algebra.
Given a Lie algebra L
containing a Lie subalgebra L' ⊆ L
, together with a Lie ring module
M
of L
, we may regard M
as a Lie ring module of L'
by restriction.
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Given a Lie algebra L
containing a Lie subalgebra L' ⊆ L
, together with a Lie module M
of
L
, we may regard M
as a Lie module of L'
by restriction.
An L
-equivariant map of Lie modules M → N
is L'
-equivariant for any Lie subalgebra
L' ⊆ L
.
Equations
Instances For
The embedding of a Lie subalgebra into the ambient space as a morphism of Lie algebras.
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The embedding of a Lie subalgebra into the ambient space as a morphism of Lie modules.
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The range of a morphism of Lie algebras is a Lie subalgebra.
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We can restrict a morphism to a (surjective) map to its range.
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A Lie algebra is equivalent to its range under an injective Lie algebra morphism.
Equations
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The image of a Lie subalgebra under a Lie algebra morphism is a Lie subalgebra of the codomain.
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The preimage of a Lie subalgebra under a Lie algebra morphism is a Lie subalgebra of the domain.
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Equations
- LieSubalgebra.instBotLieSubalgebra = { bot := 0 }
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The set of Lie subalgebras of a Lie algebra form a complete lattice.
We provide explicit values for the fields bot
, top
, inf
to get more convenient definitions
than we would otherwise obtain from completeLatticeOfInf
.
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Equations
- LieSubalgebra.addCommMonoid = AddCommMonoid.mk (_ : ∀ (x x_1 : LieSubalgebra R L), x ⊔ x_1 = x_1 ⊔ x)
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Equations
- (_ : Subsingleton (LieSubalgebra R ↥⊥)) = (_ : Subsingleton (LieSubalgebra R ↥⊥))
Given two nested Lie subalgebras K ⊆ K'
, the inclusion K ↪ K'
is a morphism of Lie
algebras.
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Instances For
Given two nested Lie subalgebras K ⊆ K'
, we can view K
as a Lie subalgebra of K'
,
regarded as Lie algebra in its own right.
Equations
Instances For
Given nested Lie subalgebras K ⊆ K'
, there is a natural equivalence from K
to its image in
K'
.
Equations
Instances For
The Lie subalgebra of a Lie algebra L
generated by a subset s ⊆ L
.
Equations
- LieSubalgebra.lieSpan R L s = sInf {N : LieSubalgebra R L | s ⊆ ↑N}
Instances For
lieSpan
forms a Galois insertion with the coercion from LieSubalgebra
to Set
.
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An injective Lie algebra morphism is an equivalence onto its range.
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Lie subalgebras that are equal as sets are equivalent as Lie algebras.
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An equivalence of Lie algebras restricts to an equivalence from any Lie subalgebra onto its image.
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An equivalence of Lie algebras restricts to an equivalence from any Lie subalgebra onto its image.
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