Difference between revisions of "Semi-linear mapping"
From Encyclopedia of Mathematics
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| − | + | {{MSC|15}} | |
| + | {{TEX|done}} | ||
| − | + | A ''semi-linear mapping'' is a mapping $\def\a{\alpha}\a$ from a (left) | |
| + | [[Module|module]] $M$ into a (left) module $N$ over the same ring $A$, satisfying the conditions | ||
| − | + | $$\a(x+y)=\a(x)+\a(y),$$ | |
| − | + | $$\def\s{\sigma}\a(cx)=c^\s\a(x)$$ | |
| + | where $x,y\in M$, $c\in A$ and $c\mapsto c^\s$ is some automorphism of $A$. One says that $\a$ is semi-linear relative to the automorphism $\s$. A semi-linear mapping of vector spaces over the field $\C$ relative to complex conjugation $c^\s = \bar c$ is also known as an anti-linear mapping. A semi-linear mapping of an $A$-module $M$ into itself is known as a semi-linear transformation. | ||
| − | Example. A homothety of an | + | Example. A homothety of an $A$-module $M$, i.e. a mapping $x\mapsto ax$ ($x\in M$), where $a$ is a fixed invertible element of $A$, is a semi-linear mapping relative to the automorphism $c^\s = aca^{-1}$. |
Many properties of linear mappings and homomorphisms of modules remain valid for semi-linear mappings. In particular, the kernel and image of a semi-linear mapping are submodules; semi-linear mappings of free modules with finite bases are completely determined by their matrices; one can define the rank of a semi-linear mapping of vector spaces, which is equal to the rank of its matrix; etc. | Many properties of linear mappings and homomorphisms of modules remain valid for semi-linear mappings. In particular, the kernel and image of a semi-linear mapping are submodules; semi-linear mappings of free modules with finite bases are completely determined by their matrices; one can define the rank of a semi-linear mapping of vector spaces, which is equal to the rank of its matrix; etc. | ||
| − | + | A semi-linear transformation, i.e., a semi-linear mapping of a module into itself, is also called a semi-linear endomorphism. | |
| − | |||
| − | + | ====References==== | |
| − | ==== | + | {| |
| − | + | |- | |
| + | |valign="top"|{{Ref|Bo}}||valign="top"| N. Bourbaki, "Algebra", | ||
| + | ''Elements of mathematics'', '''1''', Addison-Wesley (1973) | ||
| + | pp. Chapts. I-III (Translated from French) | ||
| + | {{MR|0354207}} {{ZBL|1111.00001}} | ||
| + | |- | ||
| + | |} | ||
Latest revision as of 22:23, 2 November 2013
2020 Mathematics Subject Classification: Primary: 15-XX [MSN][ZBL]
A semi-linear mapping is a mapping $\def\a{\alpha}\a$ from a (left) module $M$ into a (left) module $N$ over the same ring $A$, satisfying the conditions
$$\a(x+y)=\a(x)+\a(y),$$
$$\def\s{\sigma}\a(cx)=c^\s\a(x)$$ where $x,y\in M$, $c\in A$ and $c\mapsto c^\s$ is some automorphism of $A$. One says that $\a$ is semi-linear relative to the automorphism $\s$. A semi-linear mapping of vector spaces over the field $\C$ relative to complex conjugation $c^\s = \bar c$ is also known as an anti-linear mapping. A semi-linear mapping of an $A$-module $M$ into itself is known as a semi-linear transformation.
Example. A homothety of an $A$-module $M$, i.e. a mapping $x\mapsto ax$ ($x\in M$), where $a$ is a fixed invertible element of $A$, is a semi-linear mapping relative to the automorphism $c^\s = aca^{-1}$.
Many properties of linear mappings and homomorphisms of modules remain valid for semi-linear mappings. In particular, the kernel and image of a semi-linear mapping are submodules; semi-linear mappings of free modules with finite bases are completely determined by their matrices; one can define the rank of a semi-linear mapping of vector spaces, which is equal to the rank of its matrix; etc.
A semi-linear transformation, i.e., a semi-linear mapping of a module into itself, is also called a semi-linear endomorphism.
References
| [Bo] | N. Bourbaki, "Algebra",
Elements of mathematics, 1, Addison-Wesley (1973) pp. Chapts. I-III (Translated from French) MR0354207 Zbl 1111.00001 |
How to Cite This Entry:
Semi-linear mapping. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Semi-linear_mapping&oldid=18709
Semi-linear mapping. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Semi-linear_mapping&oldid=18709
This article was adapted from an original article by A.L. Onishchik (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article