06243nam 2201645 a 450 991082122920332120200520144314.01-282-82089-397866128208921-4008-2488-510.1515/9781400824885(CKB)2670000000069015(EBL)617335(OCoLC)670429607(SSID)ssj0000409573(PQKBManifestationID)11314021(PQKBTitleCode)TC0000409573(PQKBWorkID)10348703(PQKB)11056699(DE-B1597)446168(OCoLC)979910656(DE-B1597)9781400824885(Au-PeEL)EBL617335(CaPaEBR)ebr10421690(CaONFJC)MIL282089(MiAaPQ)EBC617335(EXLCZ)99267000000006901520010501d2002 uy 0engur|n|---|||||txtccrTwisted L-functions and monodromy[electronic resource] /by Nicholas M. KatzCore TextbookPrinceton Princeton University Press20021 online resource (258 p.)Annals of mathematics studies ;no. 150Description based upon print version of record.0-691-09150-1 0-691-09151-X Includes bibliographical references (p. [235]-239) and index.pt. 1. Background material -- pt. 2. Twist sheaves, over an algebraically closed field -- pt. 3. Twist sheaves, over a finite field -- pt. 4. Twist sheaves over schemes of finite type over Z.For hundreds of years, the study of elliptic curves has played a central role in mathematics. The past century in particular has seen huge progress in this study, from Mordell's theorem in 1922 to the work of Wiles and Taylor-Wiles in 1994. Nonetheless, there remain many fundamental questions where we do not even know what sort of answers to expect. This book explores two of them: What is the average rank of elliptic curves, and how does the rank vary in various kinds of families of elliptic curves? Nicholas Katz answers these questions for families of ''big'' twists of elliptic curves in the function field case (with a growing constant field). The monodromy-theoretic methods he develops turn out to apply, still in the function field case, equally well to families of big twists of objects of all sorts, not just to elliptic curves. The leisurely, lucid introduction gives the reader a clear picture of what is known and what is unknown at present, and situates the problems solved in this book within the broader context of the overall study of elliptic curves. The book's technical core makes use of, and explains, various advanced topics ranging from recent results in finite group theory to the machinery of l-adic cohomology and monodromy. Twisted L-Functions and Monodromy is essential reading for anyone interested in number theory and algebraic geometry.Annals of mathematics studies ;no. 150.L-functionsMonodromy groupsAbelian variety.Absolute continuity.Addition.Affine space.Algebraically closed field.Ambient space.Average.Betti number.Birch and Swinnerton-Dyer conjecture.Blowing up.Codimension.Coefficient.Computation.Conjecture.Conjugacy class.Convolution.Critical value.Differential geometry of surfaces.Dimension (vector space).Dimension.Direct sum.Divisor (algebraic geometry).Divisor.Eigenvalues and eigenvectors.Elliptic curve.Equation.Equidistribution theorem.Existential quantification.Factorization.Finite field.Finite group.Finite set.Flat map.Fourier transform.Function field.Functional equation.Goursat's lemma.Ground field.Group representation.Hyperplane.Hypersurface.Integer matrix.Integer.Irreducible component.Irreducible polynomial.Irreducible representation.J-invariant.K3 surface.L-function.Lebesgue measure.Lefschetz pencil.Level of measurement.Lie algebra.Limit superior and limit inferior.Minimal polynomial (field theory).Modular form.Monodromy.Morphism.Numerical analysis.Orthogonal group.Percentage.Polynomial.Prime number.Probability measure.Quadratic function.Quantity.Quotient space (topology).Representation theory.Residue field.Riemann hypothesis.Root of unity.Scalar (physics).Set (mathematics).Sheaf (mathematics).Subgroup.Summation.Symmetric group.System of imprimitivity.Theorem.Trivial representation.Zariski topology.L-functions.Monodromy groups.512/.74SI 830rvkKatz Nicholas M.1943-59374MiAaPQMiAaPQMiAaPQBOOK9910821229203321Twisted L-Functions and Monodromy377608UNINA