Difference between revisions of "Bimodule"
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− | <TR><TD valign="top">[a1]</TD> <TD valign="top"> Paul M. Cohn. ''Basic Algebra: Groups, Rings, and Fields'', Springer (2003) ISBN 1852335874. {{ZBL|1003.00001}}</TD></TR> | + | <TR><TD valign="top">[a1]</TD> <TD valign="top"> Paul M. Cohn. ''Basic Algebra: Groups, Rings, and Fields'', Springer (2003) {{ISBN|1852335874}}. {{ZBL|1003.00001}}</TD></TR> |
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Latest revision as of 17:01, 23 November 2023
2020 Mathematics Subject Classification: Primary: 16D20 [MSN][ZBL]
double module
An Abelian group $B$ that is a left module over a ring $R$ and a right module over a ring $S$, and is such that $(rb)s = r(bs)$ for all $r\in R$, $ b \in B$, $s \in S$. One writes ${}_R B_S$, or that $B$ is an $(R,S)$-bimodule. The bimodule $B$ may be regarded as a left $R \otimes S^{\mathrm{op}}$-module, where $S^{\mathrm{op}}$ is the opposite ring (dually isomorphic, anti-isomorphic) to $S$, while $\otimes$ denotes the tensor product over the ring of integers, and $(r\otimes s)b = rbs$. For every left $R$-module $M$ one has the situation ${}_R M_E$, where $E$ is the ring of endomorphisms of $M$. Any ring $R$ can be given the natural structure of an $(R,R)$-bimodule.
Comments
A bimodule morphism is a mapping from a bimodule ${}_R B_S$ into a bimodule ${}_R C_S$ that is left $R$-linear and right $S$-linear. The category of $(R,S)$-bimodules with bimodule morphisms is a Grothendieck category.
The centre of an $(R,R)$-bimodule (also called an $R$-bimodule) $B$ is defined to be the set $$ Z_R(B) = \{x \in B : rx = xr \ \text{for all}\ r \in R\}\ . $$ Clearly $Z_R(B)$ is a two-sided $Z_R(R)$--module. In particular, when $R$ is commutative, the distinction between left and right modules disappears and any $R$-module may be regarded as an $(R,R)$-bimodule.
References
[a1] | Paul M. Cohn. Basic Algebra: Groups, Rings, and Fields, Springer (2003) ISBN 1852335874. Zbl 1003.00001 |
Bimodule. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Bimodule&oldid=39936