Rigid Local Systems

Name: Rigid Local Systems
Brand: Princeton University Press
SKU: 9780691011189
Price: 104.99 EUR
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Product variants

A01=Nicholas M. Katz

Additive group

Alexander Grothendieck

Algebraic closure

Algebraically closed field

Analytic continuation

Author_Nicholas M. Katz

Automorphism

Axiom of choice

Bernhard Riemann

Calculation

Category=PBK

Coefficient

Cohomology

Commutator

Complex analytic space

Conjecture

Conjugacy class

Convolution

Cube root

Cusp form

De Rham cohomology

Differential equation

Dimensional analysis

Discrete valuation ring

Disjoint union

Divisor

Eigenfunction

Eigenvalues and eigenvectors

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

Equation

Exact sequence

Existential quantification

Finite field

Finite set

Fourier transform

Fundamental group

Generic point

Hypergeometric function

Integer

Invertible matrix

Isomorphism class

Jordan normal form

Level of measurement

Linear differential equation

Local system

Monodromy

Monomial

Natural filtration

Parameter

Parity (mathematics)

Perverse sheaf

Prime number

Projective representation

Pullback

Pullback (category theory)

Rational function

Regular singular point

Relative dimension

Residue field

Root of unity

Sesquilinear form

Set (mathematics)

Special case

Subgroup

Subobject

Subring

Summation

Tensor product

Theorem

Topology

Triangular matrix

Trivial representation

Zariski topology

Product details

ISBN 9780691011189
Weight: 312g
Dimensions: 197 x 254mm
Publication Date: 31 Dec 1995
Publisher: Princeton University Press
Publication City/Country: US
Product Form: Paperback

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Riemann introduced the concept of a "local system" on P1-{a finite set of points} nearly 140 years ago. His idea was to study nth order linear differential equations by studying the rank n local systems (of local holomorphic solutions) to which they gave rise. His first application was to study the classical Gauss hypergeometric function, which he did by studying rank-two local systems on P1- {0,1,infinity}. His investigation was successful, largely because any such (irreducible) local system is rigid in the sense that it is globally determined as soon as one knows separately each of its local monodromies. It became clear that luck played a role in Riemann's success: most local systems are not rigid. Yet many classical functions are solutions of differential equations whose local systems are rigid, including both of the standard nth order generalizations of the hypergeometric function, n F n-1's, and the Pochhammer hypergeometric functions. This book is devoted to constructing all (irreducible) rigid local systems on P1-{a finite set of points} and recognizing which collections of independently given local monodromies arise as the local monodromies of irreducible rigid local systems. Although the problems addressed here go back to Riemann, and seem to be problems in complex analysis, their solutions depend essentially on a great deal of very recent arithmetic algebraic geometry, including Grothendieck's etale cohomology theory, Deligne's proof of his far-reaching generalization of the original Weil Conjectures, the theory of perverse sheaves, and Laumon's work on the l-adic Fourier Transform.

Nicholas M Katz is Professor of Mathematics at Princeton University.