A new approach to the bialgebra theory for relative Poisson algebras
Abstract
It is natural to consider extending the typical construction of relative Poisson algebras from commutative differential algebras to the context of bialgebras. The known bialgebra structures for relative Poisson algebras, namely relative Poisson bialgebras, are equivalent to Manin triples of relative Poisson algebras with respect to the symmetric bilinear forms which are invariant on both the commutative associative and Lie algebras. However, they are not consistent with commutative and cocommutative differential antisymmetric infinitesimal (ASI) bialgebras as the bialgebra structures for commutative differential algebras. Alternatively, with the invariance replaced by the commutative $2$-cocycles on the Lie algebras, the corresponding Manin triples of relative Poisson algebras are proposed, which are shown to be equivalent to certain bialgebra structures, namely relative PCA bialgebras. They serve as another approach to the bialgebra theory for relative Poisson algebras, which can be naturally constructed from commutative and cocommutative differential ASI bialgebras. The notion of the relative PCA Yang-Baxter equation (RPCA-YBE) in a relative PCA algebra is introduced, whose antisymmetric solutions give coboundary relative PCA bialgebras. The notions of $\mathcal{O}$-operators of relative PCA algebras and relative pre-PCA algebras are also introduced to give antisymmetric solutions of the RPCA-YBE.