# Difference between revisions of "Conductor of a character"

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$$ | $$ | ||

n _ {i} = | G _ {i} |,\ \chi ( G _ {i} ) | n _ {i} = | G _ {i} |,\ \chi ( G _ {i} ) | ||

− | = n _ {i} ^ {-} | + | = n _ {i} ^ {-1} \sum _ {g \in G _ {i} } \chi ( g) , |

$$ | $$ | ||

## Latest revision as of 18:32, 14 June 2020

An integer associated to the character of a representation of the Galois group of a finite extension of a local field. Let $ K $
be a field that is complete with respect to a discrete valuation, with residue class field $ k $
of characteristic $ p \geq 0 $.
Let $ L/K $
be a Galois extension of degree $ n $
with Galois group $ G $
and suppose that the residue class field extension is separable. If $ \chi $
is the character of some finite-dimensional complex representation of $ G $,
its conductor $ f ( \chi ) $
is defined by the formula:

$$ f ( \chi ) = \ \sum _ {i = 0 } ^ \infty \frac{n _ {i} }{n _ {0} } ( \chi ( 1) - \chi ( G _ {i} )), $$

where

$$ G _ {i} = \ \{ {g \in G } : { \nu _ {L} ( g ( x) - x) \geq i + 1 \textrm{ for } \ \textrm{ all } x \in L \ \textrm{ with } \ \nu _ {L} ( x) \geq 0 } \} , $$

$$ n _ {i} = | G _ {i} |,\ \chi ( G _ {i} ) = n _ {i} ^ {-1} \sum _ {g \in G _ {i} } \chi ( g) , $$

where $ \nu _ {L} $ is the corresponding valuation of $ L $. If $ p $ does not divide $ n $, then $ G _ {i} = \{ 1 \} $ for $ i > 0 $ and $ f ( \chi ) = \chi ( 1) - \chi ( G _ {0} ) $. If $ \chi $ is the character of a rational representation $ M $, then $ \chi ( G _ {i} ) = \mathop{\rm dim} M ^ {G _ {i} } $. The conductor $ f ( \chi ) $ is a non-negative integer.

#### References

[1] | J.W.S. Cassels (ed.) A. Fröhlich (ed.) , Algebraic number theory , Acad. Press (1967) pp. Chapt. VI |

[2] | E. Artin, J. Tate, "Class field theory" , Benjamin (1967) |

[3] | J.-P. Serre, "Local fields" , Springer (1979) (Translated from French) |

#### Comments

The ideal $ \mathfrak p _ {k} ^ {f ( \chi ) } $, where $ f ( \chi ) $ is the conductor of a character $ \chi $ of the Galois group of an extension of local fields, is also called the Artin conductor of $ \chi $. There is a corresponding notion for extensions of global fields obtained by taking a suitable product over all finite primes, cf. [a1], p. 126. It plays an important role in the theory of Artin $ L $- functions, cf. $ L $- function.

#### References

[a1] | J. Neukirch, "Class field theory" , Springer (1986) |

**How to Cite This Entry:**

Conductor of a character.

*Encyclopedia of Mathematics.*URL: http://encyclopediaofmath.org/index.php?title=Conductor_of_a_character&oldid=49732