Theory of Stein Spaces [electronic resource] /

Theory of Stein Spaces [electronic resource] /

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1. The classical theorem of Mittag-Leffler was generalized to the case of several complex variables by Cousin in 1895. In its one variable version this says that, if one prescribes the principal parts of a merom orphic function on a domain in the complex plane e, then there exists a meromorphic function defined on that domain having exactly those principal parts. Cousin and subsequent authors could only prove the analogous theorem in several variables for certain types of domains (e. g. product domains where each factor is a domain in the complex plane). In fact it turned out that this problem can not be solved on an arbitrary domain in em, m ~ 2. The best known example for this is a "notched" bicylinder in 2 2 e . This is obtained by removing the set { (z , z ) E e 11 z I ~ !, I z 1 ~ !}, from 1 2 1 2 2 the unit bicylinder, ~ :={(z , z ) E e llz1 < 1, lz1 < 1}. This domain D has 1 2 1 2 the property that every function holomorphic on D continues to a function holo­ morphic on the entire bicylinder. Such a phenomenon never occurs in the theory of one complex variable. In fact, given a domain G c e, there exist functions holomorphic on G which are singular at every boundary point of G.

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Main Authors: Grauert, Hans. author., Remmert, Reinhold. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: New York, NY : Springer New York : Imprint: Springer, 1979
Subjects:Mathematics., Algebraic geometry., Functions of complex variables., Several Complex Variables and Analytic Spaces., Algebraic Geometry.,
Online Access:http://dx.doi.org/10.1007/978-1-4757-4357-9
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spelling KOHA-OAI-TEST:1978552018-07-30T23:24:04ZTheory of Stein Spaces [electronic resource] / Grauert, Hans. author. Remmert, Reinhold. author. SpringerLink (Online service) textNew York, NY : Springer New York : Imprint: Springer,1979.eng1. The classical theorem of Mittag-Leffler was generalized to the case of several complex variables by Cousin in 1895. In its one variable version this says that, if one prescribes the principal parts of a merom orphic function on a domain in the complex plane e, then there exists a meromorphic function defined on that domain having exactly those principal parts. Cousin and subsequent authors could only prove the analogous theorem in several variables for certain types of domains (e. g. product domains where each factor is a domain in the complex plane). In fact it turned out that this problem can not be solved on an arbitrary domain in em, m ~ 2. The best known example for this is a "notched" bicylinder in 2 2 e . This is obtained by removing the set { (z , z ) E e 11 z I ~ !, I z 1 ~ !}, from 1 2 1 2 2 the unit bicylinder, ~ :={(z , z ) E e llz1 < 1, lz1 < 1}. This domain D has 1 2 1 2 the property that every function holomorphic on D continues to a function holo­ morphic on the entire bicylinder. Such a phenomenon never occurs in the theory of one complex variable. In fact, given a domain G c e, there exist functions holomorphic on G which are singular at every boundary point of G.A. Sheaf Theory -- B. Cohomology Theory -- I. Coherence Theory for Finite Holomorphic Maps -- II. Differential Forms and Dolbeault Theory -- III. Theorems A and B for Compact Blocks ?m -- IV. Stein Spaces -- V. Applications of Theorems A and B -- VI. The Finiteness Theorem -- VII. Compact Riemann Surfaces -- Table of Symbols.1. The classical theorem of Mittag-Leffler was generalized to the case of several complex variables by Cousin in 1895. In its one variable version this says that, if one prescribes the principal parts of a merom orphic function on a domain in the complex plane e, then there exists a meromorphic function defined on that domain having exactly those principal parts. Cousin and subsequent authors could only prove the analogous theorem in several variables for certain types of domains (e. g. product domains where each factor is a domain in the complex plane). In fact it turned out that this problem can not be solved on an arbitrary domain in em, m ~ 2. The best known example for this is a "notched" bicylinder in 2 2 e . This is obtained by removing the set { (z , z ) E e 11 z I ~ !, I z 1 ~ !}, from 1 2 1 2 2 the unit bicylinder, ~ :={(z , z ) E e llz1 < 1, lz1 < 1}. This domain D has 1 2 1 2 the property that every function holomorphic on D continues to a function holo­ morphic on the entire bicylinder. Such a phenomenon never occurs in the theory of one complex variable. In fact, given a domain G c e, there exist functions holomorphic on G which are singular at every boundary point of G.Mathematics.Algebraic geometry.Functions of complex variables.Mathematics.Several Complex Variables and Analytic Spaces.Algebraic Geometry.Springer eBookshttp://dx.doi.org/10.1007/978-1-4757-4357-9URN:ISBN:9781475743579
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Mathematics.
Algebraic geometry.
Functions of complex variables.
Mathematics.
Several Complex Variables and Analytic Spaces.
Algebraic Geometry.
Mathematics.
Algebraic geometry.
Functions of complex variables.
Mathematics.
Several Complex Variables and Analytic Spaces.
Algebraic Geometry.
spellingShingle Mathematics.
Algebraic geometry.
Functions of complex variables.
Mathematics.
Several Complex Variables and Analytic Spaces.
Algebraic Geometry.
Mathematics.
Algebraic geometry.
Functions of complex variables.
Mathematics.
Several Complex Variables and Analytic Spaces.
Algebraic Geometry.
Grauert, Hans. author.
Remmert, Reinhold. author.
SpringerLink (Online service)
Theory of Stein Spaces [electronic resource] /
description 1. The classical theorem of Mittag-Leffler was generalized to the case of several complex variables by Cousin in 1895. In its one variable version this says that, if one prescribes the principal parts of a merom orphic function on a domain in the complex plane e, then there exists a meromorphic function defined on that domain having exactly those principal parts. Cousin and subsequent authors could only prove the analogous theorem in several variables for certain types of domains (e. g. product domains where each factor is a domain in the complex plane). In fact it turned out that this problem can not be solved on an arbitrary domain in em, m ~ 2. The best known example for this is a "notched" bicylinder in 2 2 e . This is obtained by removing the set { (z , z ) E e 11 z I ~ !, I z 1 ~ !}, from 1 2 1 2 2 the unit bicylinder, ~ :={(z , z ) E e llz1 < 1, lz1 < 1}. This domain D has 1 2 1 2 the property that every function holomorphic on D continues to a function holo­ morphic on the entire bicylinder. Such a phenomenon never occurs in the theory of one complex variable. In fact, given a domain G c e, there exist functions holomorphic on G which are singular at every boundary point of G.
format Texto
topic_facet Mathematics.
Algebraic geometry.
Functions of complex variables.
Mathematics.
Several Complex Variables and Analytic Spaces.
Algebraic Geometry.
author Grauert, Hans. author.
Remmert, Reinhold. author.
SpringerLink (Online service)
author_facet Grauert, Hans. author.
Remmert, Reinhold. author.
SpringerLink (Online service)
author_sort Grauert, Hans. author.
title Theory of Stein Spaces [electronic resource] /
title_short Theory of Stein Spaces [electronic resource] /
title_full Theory of Stein Spaces [electronic resource] /
title_fullStr Theory of Stein Spaces [electronic resource] /
title_full_unstemmed Theory of Stein Spaces [electronic resource] /
title_sort theory of stein spaces [electronic resource] /
publisher New York, NY : Springer New York : Imprint: Springer,
publishDate 1979
url http://dx.doi.org/10.1007/978-1-4757-4357-9
work_keys_str_mv AT grauerthansauthor theoryofsteinspaceselectronicresource
AT remmertreinholdauthor theoryofsteinspaceselectronicresource
AT springerlinkonlineservice theoryofsteinspaceselectronicresource
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