Description

Book Synopsis
The aim of this book is to present a modern treatment of the theory of theta functions in the context of algebraic geometry. The novelty of its approach lies in the systematic use of the Fourier–Mukai transform.

Trade Review
'The book is written by a leading expert in the field and it will certainly be a valuable enhancement to the existing literature.' EMS Newsletter

Table of Contents
Part I. Analytic Theory: 1. Line bundles on complex tori; 2. Representations of Heisenberg groups I ; 3. Theta functions; 4. Representations of Heisenberg groups II: intertwining operators; 5. Theta functions II: functional equation; 6. Mirror symmetry for tori; 7. Cohomology of a line bundle on a complex torus: mirror symmetry approach; Part II. Algebraic Theory: 8. Abelian varieties and theorem of the cube; 9. Dual Abelian variety; 10. Extensions, biextensions and duality; 11. Fourier–Mukai transform; 12. Mumford group and Riemann's quartic theta relation; 13. More on line bundles; 14. Vector bundles on elliptic curves; 15. Equivalences between derived categories of coherent sheaves on Abelian varieties; Part III. Jacobians: 16. Construction of the Jacobian; 17. Determinant bundles and the principle polarization of the Jacobian; 18. Fay's trisecant identity; 19. More on symmetric powers of a curve; 20. Varieties of special divisors; 21. Torelli theorem; 22. Deligne's symbol, determinant bundles and strange duality; Bibliographical notes and further reading; References.

Abelian Varieties Theta Functions and the Fourier Transform

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A Hardback by Alexander Polishchuk

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    View other formats and editions of Abelian Varieties Theta Functions and the Fourier Transform by Alexander Polishchuk

    Publisher: Cambridge University Press
    Publication Date: 4/21/2003 12:00:00 AM
    ISBN13: 9780521808040, 978-0521808040
    ISBN10: 0521808049
    Also in:
    Mathematics Number theory

    Description

    Book Synopsis
    The aim of this book is to present a modern treatment of the theory of theta functions in the context of algebraic geometry. The novelty of its approach lies in the systematic use of the Fourier–Mukai transform.

    Trade Review
    'The book is written by a leading expert in the field and it will certainly be a valuable enhancement to the existing literature.' EMS Newsletter

    Table of Contents
    Part I. Analytic Theory: 1. Line bundles on complex tori; 2. Representations of Heisenberg groups I ; 3. Theta functions; 4. Representations of Heisenberg groups II: intertwining operators; 5. Theta functions II: functional equation; 6. Mirror symmetry for tori; 7. Cohomology of a line bundle on a complex torus: mirror symmetry approach; Part II. Algebraic Theory: 8. Abelian varieties and theorem of the cube; 9. Dual Abelian variety; 10. Extensions, biextensions and duality; 11. Fourier–Mukai transform; 12. Mumford group and Riemann's quartic theta relation; 13. More on line bundles; 14. Vector bundles on elliptic curves; 15. Equivalences between derived categories of coherent sheaves on Abelian varieties; Part III. Jacobians: 16. Construction of the Jacobian; 17. Determinant bundles and the principle polarization of the Jacobian; 18. Fay's trisecant identity; 19. More on symmetric powers of a curve; 20. Varieties of special divisors; 21. Torelli theorem; 22. Deligne's symbol, determinant bundles and strange duality; Bibliographical notes and further reading; References.

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