Definition:Bimodule

Definition
Let $\struct {R, +_R, \times_R}$ and $\struct {S, +_S, \times_S}$ be rings.

Let $\struct {G, +_G}$ be an abelian group.

Let $\circ_R : R \times G \to G$ and $\circ_S : G \times S \to G$ be binary operations such that:
 * $\quad \struct {G, +_G, \circ_R}$ is a left module
 * $\quad \struct {G, +_G, \circ_S}$ is a right module
 * $\quad \forall \lambda \in R: \forall \mu \in S: \forall x \in G : \paren{\lambda \circ_R x} \circ_S \mu = \lambda \circ_R \paren {x \circ_S \mu}$

Then $\struct {G, +_G, \circ_R, \circ_S}$ is a bimodule over $\paren{R,S}$.

If $\struct {S, +_S, \times_S} = \struct {R, +_R, \times_R}$ then a bimodule over $\paren{R,R}$ is simply called a bimodule over $R$

Also known as
A bimodule over $\paren{R,S}$ can also be referred to as an $\paren {R,S}$-bimodule.