On The Tangent Space To The Space Of

In recent years, considerable progress has been made in studying algebraic cycles using infinitesimal methods. These methods have usually been applied to Hodge-theoretic constructions such as the cycle class and the Abel-Jacobi map. Substantial advances have also occurred in the infinitesimal theory for subvarieties of a given smooth variety, centered around the normal bundle and the obstructions coming from the normal bundle's first cohomology group. Here, Mark Green and Phillip Griffiths set forth the initial stages of an infinitesimal theory for algebraic cycles. The book aims in part to understand the geometric basis and the limitations of Spencer Bloch's beautiful formula for the tangent space to Chow groups. Bloch's formula is motivated by algebraic K-theory and involves differentials over Q. The theory developed here is characterized by the appearance of arithmetic considerations even in the local infinitesimal theory of algebraic cycles. The map from the tangent space to the Hilbert scheme to the tangent space to algebraic cycles passes through a variant of an interesting construction in commutative algebra due to Angeacute;niol and Lejeune-Jalabert. The link between the theory given here and Bloch's formula arises from an interpretation of the Cousin flasque resolution of differentials over Q as the tangent sequence to the Gersten resolution in algebraic K-theory. The case of 0-cycles on a surface is used for illustrative purposes to avoid undue technical complications.

Chapter 1. Introduction

3

(19)

1.1 General comments

3

(19)

Chapter 2. The Classical Case When n = 1

22

(9)

Chapter 3. Differential Geometry of Symmetric Products

31

(11)

Chapter 4. Absolute Differentials (|)

42

(12)

4.1 Generalities

42

(6)

4.2 Spreads

48

(6)

Chapter 5. Geometric Description of T Zn (X)

54

(7)

5.1 The description

54

(3)

5.2 Intrinsic formulation

57

(4)

Chapter 6. Absolute Differentials (||)

61

(23)

6.1 Absolute differentials arise from purely geometric considerations

61

(6)

6.2 A nonclassical case when n = 1

67

(3)

6.3 The differential of the tame symbol

70

(14)

Chapter 7. The Ext-definition of TZ²(X) for X an Algebraic Surface

84

(16)

7.1 The definition of T Z²(X)

84

(3)

7.2 The map T Hilb²(X)->TZ²(X)

87

(5)

7.3 Relation of the Puiseaux and algebraic approaches

92

(5)

7.4 Further remarks

97

(3)

Chapter 8. Tangents to Related Spaces

100

(50)

8.1 The definition of TZ¹(X) for a surface X

100

(15)

8.2 Duality and the description of TZ¹(X) using differential forms

115

(8)

8.3 Definitions of TZ¹1 for X a curve and a surface

123

(18)

8.4 Identification of the geometric and formal tangent spaces to CH²(X) for X a surface

141

(4)

8.5 Canonical filtration on TCHn(X) and its relation to the conjectural filtration on CHn(X)

145

(5)

Chapter 9. Applications and Examples

150

(36)

9.1 The generalization of Abel's differential equations

150

(12)

9.2 On the integration of Abel's differential equations

162

(4)

9.3 Surfaces in P³

166

(10)

9.4 Example: (P²,T)

176

(10)

Chapter 10. Speculations and Questions

186

(9)

10.1 Definitional issues

186

(1)

10.2 Obstructedness issues

187

(3)

10.3 Null curves

190

(1)

10.4 Arithmetic and geometric estimates

191

(4)

Bibliography

195

(4)

Index

199

What is included with this book?

The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.

The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.

FREE SHIPPING

Amazon no longer offers textbook rentals. We do!

On The Tangent Space To The Space Of Algebraic Cycles On A Smooth Algebraic Variety

Summary

Table of Contents

Supplemental Materials