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Line 1: In{{Short ~~mathematics, an '''automorphic function''' is a~~description\|Mathematical function on a space that is invariant under the action of some group~~, in other words a function on the quotient space. Often the space is a complex manifold and the group is a discrete group.~~ }} In mathematics, an '''automorphic function''' is a function on a space that is invariant under the [[Group action (mathematics)\|action]] of some [[group (mathematics)\|group]], in other words a function on the [[Quotient space (topology)\|quotient space]]. Often the space is a [[complex manifold]] and the group is a [[discrete group]]. ==Factor of automorphy== In [[mathematics]], the notion of '''factor of automorphy''' arises for a [[group (mathematics)\|group]] [[Group action (mathematics)\|acting]] on a [[complex-analytic manifold]]. Suppose a group <math>G</math> acts on a complex-analytic manifold <math>X</math>. Then, <math>G</math> also acts on the space of [[holomorphic function]]s from <math>X</math> to the complex numbers. A function <math>f</math> is termed an ''[[automorphic form]]'' if the following holds: : <math>f(g.x) = j_g(x)f(x)</math> where <math>j_g(x)</math> is an everywhere nonzero holomorphic function. Equivalently, an automorphic form is a function whose divisor is invariant under the action of <math>G</math>. The ''factor of automorphy'' for the automorphic form <math>f</math> is the function <math>j</math>. An ''automorphic function'' is an automorphic form for which <math>j</math> is the identity. Some facts about factors of automorphy: * Every factor of automorphy is a [[Cocycle (algebraic topology)\|cocycle]] for the action of <math>G</math> on the multiplicative group of everywhere nonzero holomorphic functions. * The factor of automorphy is a [[coboundary]] if and only if it arises from an everywhere nonzero automorphic form. * For a given factor of automorphy, the space of automorphic forms is a vector space. * The pointwise product of two automorphic forms is an automorphic form corresponding to the product of the corresponding factors of automorphy. Relation between factors of automorphy and other notions: * Let <math>\Gamma</math> be a lattice in a Lie group <math>G</math>. Then, a factor of automorphy for <math>\Gamma</math> corresponds to a [[line bundle]] on the quotient group <math>G/\Gamma</math>. Further, the automorphic forms for a given factor of automorphy correspond to sections of the corresponding line bundle. The specific case of <math>\Gamma</math> a subgroup of ''SL''(2, '''R'''), acting on the [[upper half-plane]], is treated in the article on [[automorphic factor]]s. ==Examples== [[{{annotated link\|Kleinian group]]}} [[{{annotated link\|Elliptic modular function]]}} [[{{annotated link\|Modular function]]}} {{annotated link\|Complex torus}} ==References== {{~~eom~~springer\|id=a/~~a014170~~a014160\|~~first~~author=A.N. ~~\|last=Andrianov\|first2= A.N. \|last2=~~Parshin\|title=Automorphic ~~Function~~Form}} {{eom\|id=a/a014170\|first=A.N. \|last=Andrianov\|first2= A.N. \|last2=Parshin\|title=Automorphic Function}} {{Citation \| last1=Fricke \| first1=Robert \| last2=Klein \| first2=Felix \| title=Vorlesungen über die Theorie der automorphen Functionen. Erster Band; Die gruppentheoretischen Grundlagen. \| url=http://www.archive.org/details/vorlesungenber01fricuoft \| publisher=Leipzig: B. G. Teubner \| language=German \| isbn=978-1-4297-0551-6 \| id={{JFM\|28.0334.01}} \| year=1897}}▼ {{Citation \| last1=Ford \| first1=Lester R. \|authorlink=Lester R. Ford\| title=Automorphic functions \| url=https://books.google.com/books?id=aqPvo173YIIC \| ___location=New York\|publisher= McGraw-Hill \| jfm=55.0810.04 \| year=1929}} {{Citation \| last1=Fricke \| first1=Robert \| last2=Klein \| first2=Felix \| title=Vorlesungen über die Theorie der automorphen Functionen. Zweiter Band: Die funktionentheoretischen Ausführungen und die Anwendungen. 1. Lieferung: Engere Theorie der automorphen Funktionen. \| url=http://www.archive.org/details/vorlesungenber02fricuoft \| publisher=Leipzig: B. G. Teubner. \| language=German \| isbn=978-1-4297-0552-3 \| id={{JFM\|32.0430.01}} \| year=1912}}▼ ▲{{Citation \| last1=Fricke \| first1=Robert \| last2=Klein \| first2=Felix \|authorlink1=Robert Fricke\|authorlink2= Felix Klein\| title=Vorlesungen über die Theorie der automorphen Functionen.\|volume ~~Erster~~= ~~Band;~~I. Die gruppentheoretischen Grundlagen. \| url=~~http~~https://~~www.~~archive.org/details/vorlesungenber01fricuoft \| ~~publisher~~___location=Leipzig:\|publisher= B. G. Teubner \| language=German \| ~~isbn~~jfm=~~978-1-4297-0551-6 \| id={{JFM\|~~28.0334.01}} \| year=1897}} ▲*{{Citation \| last1=Fricke \| first1=Robert \| last2=Klein \| first2=Felix \| title=Vorlesungen über die Theorie der automorphen Functionen. Zweiter Band: Die funktionentheoretischen Ausführungen und die Anwendungen. 1. Lieferung: Engere Theorie der automorphen Funktionen. \| url=~~http~~https://~~www.~~archive.org/details/vorlesungenber02fricuoft \| ___location=Leipzig\|publisher=~~Leipzig:~~ B. G. Teubner. \| language=German \| ~~isbn~~jfm=~~978-1-4297-0552-3 \| id={{JFM\|~~32.0430.01}} \| year=1912}} [[Category:Automorphic forms]] [[Category:Discrete groups]] [[Category:Types of functions]] [[Category:Complex manifolds]]