Yetter–Drinfeld category

In mathematics a Yetter–Drinfeld category is a special type of braided monoidal category. It consists of modules over a Hopf algebra which satisfy some additional axioms.

Definition

Let H be a Hopf algebra over a field k. Let $\Delta$ denote the coproduct and S the antipode of H. Let V be a vector space over k. Then V is called a (left left) Yetter–Drinfeld module over H if

$(V,\boldsymbol{.})$ is a left H-module, where $\boldsymbol{.}: H\otimes V\to V$ denotes the left action of H on V and ⊗ denotes a tensor product,
$(V,\delta\;)$ is a left H-comodule, where $\delta : V\to H\otimes V$ denotes the left coaction of H on V,
the maps $\boldsymbol{.}$ and $\delta$ satisfy the compatibility condition

\delta (h\boldsymbol{.}v)=h_{(1)}v_{(-1)}S(h_{(3)}) \otimes h_{(2)}\boldsymbol{.}v_{(0)}

for all

h\in H,v\in V

where, using Sweedler notation,

(\Delta \otimes \mathrm{id})\Delta (h)=h_{(1)}\otimes h_{(2)} \otimes h_{(3)} \in H\otimes H\otimes H

denotes the twofold coproduct of

h\in H

, and

\delta (v)=v_{(-1)}\otimes v_{(0)}

Examples

Any left H-module over a cocommutative Hopf algebra H is a Yetter–Drinfeld module with the trivial left coaction $\delta (v)=1\otimes v$ .
The trivial module $V=k\{v\}$ with $h\boldsymbol{.}v=\epsilon (h)v$ , $\delta (v)=1\otimes v$ , is a Yetter–Drinfeld module for all Hopf algebras H.
If H is the group algebra kG of an abelian group G, then Yetter–Drinfeld modules over H are precisely the G-graded G-modules. This means that

V=\bigoplus _{g\in G}V_g

where each

V_g

is a G-submodule of V.

More generally, if the group G is not abelian, then Yetter–Drinfeld modules over H=kG are G-modules with a G-gradation

V=\bigoplus _{g\in G}V_g

, such that

g.V_h\subset V_{ghg^{-1}}

Over the base field all finite-dimensional, irreducible/simple Yetter–Drinfeld modules over a (nonabelian) group H=kG are uniquely given^[1] through a conjugacy class together with (character of) an irreducible group representation of the centralizer of some representing :
$V=\mathcal{O}_{[g]}^\chi=\mathcal{O}_{[g]}^{X}\qquad V=\bigoplus_{h\in[g]}V_{h}=\bigoplus_{h\in[g]}X$
- As G-module take $\mathcal{O}_{[g]}^\chi$ to be the induced module of $\chi,X\;$ :
$Ind_{Cent(g)}^G(\chi)=kG\otimes_{kCent(g)}X$

(this can be proven easily not to depend on the choice of g)
- To define the G-graduation (comodule) assign any element $t\otimes v\in kG\otimes_{kCent(g)}X=V$ to the graduation layer:
$t\otimes v\in V_{tgt^{-1}}$
- It is very custom to directly construct $V\;$ as direct sum of X´s and write down the G-action by choice of a specific set of representatives $t_i\;$ for the $Cent(g)\;$ -cosets. From this approach, one often writes
$h\otimes v\subset[g]\times X \;\; \leftrightarrow \;\; t_i\otimes v\in kG\otimes_{kCent(g)}X \qquad\text{with uniquely}\;\;h=t_igt_i^{-1}$

(this notation emphasizes the graduation $h\otimes v\in V_h$ , rather than the module structure)

Braiding

Let H be a Hopf algebra with invertible antipode S, and let V, W be Yetter–Drinfeld modules over H. Then the map $c_{V,W}:V\otimes W\to W\otimes V$ ,

c(v\otimes w):=v_{(-1)}\boldsymbol{.}w\otimes v_{(0)},

is invertible with inverse

c_{V,W}^{-1}(w\otimes v):=v_{(0)}\otimes S(v_{(-1)})\boldsymbol{.}w.

Further, for any three Yetter–Drinfeld modules U, V, W the map c satisfies the braid relation

(c_{V,W}\otimes \mathrm{id}_U)(\mathrm{id}_V\otimes c_{U,W})(c_{U,V}\otimes \mathrm{id}_W)=(\mathrm{id}_W\otimes c_{U,V}) (c_{U,W}\otimes \mathrm{id}_V) (\mathrm{id}_U\otimes c_{V,W}):U\otimes V\otimes W\to W\otimes V\otimes U.

A monoidal category $\mathcal{C}$ consisting of Yetter–Drinfeld modules over a Hopf algebra H with bijective antipode is called a Yetter–Drinfeld category. It is a braided monoidal category with the braiding c above. The category of Yetter–Drinfeld modules over a Hopf algebra H with bijective antipode is denoted by ${}^H_H\mathcal{YD}$ .

References

↑ N. Andruskiewitsch and M.Grana: Braided Hopf algebras over non abelian groups, Bol. Acad. Ciencias (Cordoba) 63(1999), 658-691

Montgomery, Susan (1993). Hopf algebras and their actions on rings. Regional Conference Series in Mathematics 82. Providence, RI: American Mathematical Society. ISBN 0-8218-0738-2. Zbl 0793.16029.

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