Structure theorem for Hopf group-coalgebra
2013-01-08DongLihongWangShengxiangWangShuanhong
Dong Lihong Wang Shengxiang Wang Shuanhong
(1Department of Mathematics, Southeast University, Nanjing 211189, China)(2College of Mathematics and Information Science, Henan Normal University, Xinxiang 453007, China)
As a generalization of a Hopf algebra, Turaev[3]introduced and studied the notions of Hopfπ-coalgebras. Further study is referred to Virelizier[4]and Wang[5-7]. It is now very natural to ask whether we can extend the main result in Ref.[2] to the setting of Hopfπ-coalgebras. This is the motivation of this paper.
1 Preliminaries
In this section we recall some basic definitions and results about Hopfπ-coalgebras introduced by Turaev[3]. Throughout this paper, letkbe a field. The reader is referred to Sweedler[8]about Hopf algebras.
1.1 Semi-Hopf π-coalgebra
Recall from Turaev[3]that aπ-coalgebra is a family ofk-spacesC={Cα}α∈πtogether with a family ofk-linear mapsΔ={Δα,β:Cαβ→Cα⊗Cβ}α,β∈πand ak-linear mapε:C1→k, such thatΔis coassociative in the sense that,
(Δα,β⊗idCγ)Δαβ,γ=(idCα⊗Δβ,γ)Δα,βγ∀α,β,γ∈π
(idCα⊗ε)Δα,1=idCα=(ε⊗idCα)Δ1,α∀α∈π
A semi-Hopfπ-coalgebra is aπ-coalgebraH=({Hα},Δ,ε) such that eachHαis an algebra with multiplicationmαand unit element 1α∈Hα; and for allα,β∈π,Δα,βandε:H1→kare algebra maps.
1.2 Right π-H-comodule algebra
1.3 Relative Hopf π-comodule
LetHbe a semi-Hopfπ-coalgebra andAa rightπ-H-comodule algebra. If thek-spaceMis a rightπ-H-comodulelike object, andMis a leftA-module such that, for anya∈A,m∈M,
thenMis called a left-right relative (A,H)-Hopfπ-comodule.
2 Structure Theorem of Endomorphism Algebras of Two-Sided Relative (A,H)-Hopfπ-Comodule
In this section, we always assume thatHis a semi-Hopfπ-coalgebra and each componentHαis projective, andAis a rightπ-H-comodule algebra.
Definition1Thek-vector spaceMis called a two-sided relative (A,H)-Hopfπ-comodule if 1)Mis a leftπ-H-and rightAbimodule; 2)Mis a right relative (A,H)-Hopfπ-comodule; and 3)Mis a left-right Hopfπ-H-comodule.
g→(h⊗m)=gh⊗m,(h⊗m)←a=h⊗m·a
∀g,h∈Hα;a∈A;m∈M
ρ(h⊗m)=h(1,a)⊗m[0,0]⊗h(2,β)m(1,β)
∀h∈Hαβ,m∈M
In particular,H⊗A={Hα⊗A}α∈πis a two-sided relative (A,H)-Hopfπ-comodule.
ρβ(f)(m)=f(m[0,0])[0,0]⊗f(m[0,0])[1,β]Sβ-1(m[1,β-1])
(1)
for anyf∈HomA(M,N),m∈M, whereN⊗Hβis a rightA-module via (n⊗h) ·a=n·a⊗hfor anyn∈N,h∈Hβ,a∈A. Then, it is easy to see thatρβ(f) is a rightA-module map.
ArightA-linearf:M→Nis called rational if there exists an elementf[0,0]⊗f[1,β]∈HomA(M,N)⊗Hβsuch that
f[0,0](m)⊗f[1,β]=f(m[0,0])[0,0]⊗f(m[0,0])[1,β]Sβ-1(m[1,β-1])
(2)
for anym∈M. Define
HomA(M,N)={f∈HomA(M,N)|fis rational}
Since eachHβis projective, HomA(M,N) may be viewed as a submodule of HomA(M,N⊗Hβ). And by Eqs.(1) and (2), for anyf∈HomA(M,N), we know that
ρβ(f)=f[0,0]⊗f[1,β]
ρβ(f)=f[0,0](m[0,0])⊗f[1,β]m[1,β]
for anym∈Mandf∈HomA(M,N).
As described above, we can easily obtain the following lemmas.
1)ρ(f)={ρβ(f)∈HomA(M,N)|⊗Hβ}β∈πfor anyf∈HomA(M,N), and HomA(M,N) is a rightπ-H-comodulelike object;
2) ENDA(M,N) is a rightπ-H-comodule algebra;
(h→f)(m)=h(1,α)·f(Sα-1(h(2,α-1)) ·m)
(3)
Now we can obtain the main result of this paper.
1) There exists an isomorphism of right relative (A,H)-Hopfπ-comodules,
N≅HOMA(A,N)
where HOMA(A,N) is a rightA-module viaf·a(b)=f(ab).
is an isomorphism of right Hopfπ-H-comodules, whereg∈HOMA(A,N) andh∈Hα. Furthermore,
is an isomorphism of right Hopfπ-Hcomodules and algebras.
ProofWe have a well-defined map
φ:N→HOMA(A,N)φ(n)(a)=n·a
sinceρβ(φ(n))(a)=φ(n[0,0])(a)⊗n[1,β]for anyn∈Nanda∈A. It is easy to show thatφ:HOMA(A,N)→N,f|→f(1A) is the inverse ofφ.
In a similar way to Lemma 2, we know that HOMA(A,N) is a right relative (A,H)-Hopfπ-comodule. It is easy to prove thatφis a right relative (A,H)-Hopfπ-comodule map.
The conclusion follows from Theorem 2.7 in Ref.[4] and 3) of Lemma 1, Lemma 2 and Lemma 3, which completes our proof.
By Theorem 1, we have the following remark.
Remark1) By 1) of Theorem 1,A≅ENDA(A), which is an isomorphism of rightπ-H-comodule algebras. In particular,H≅ENDH(H), which is an isomorphism of algebras.
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