| Preface |
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xi | |
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Chapter 1 Complex Analysis |
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1 | (20) |
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§1.1 Green's Theorem and the Cauchy-Green Formula |
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1 | (1) |
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§1.2 Holomorphic functions and Cauchy Formulas |
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2 | (1) |
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3 | (1) |
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§1.4 Isolated singularities of holomorphic functions |
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4 | (4) |
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§1.5 The Maximum Principle |
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8 | (1) |
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§1.6 Compactness theorems |
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9 | (2) |
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11 | (3) |
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§1.8 Subharmonic functions |
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14 | (5) |
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19 | (2) |
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Chapter 2 Riemann Surfaces |
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21 | (16) |
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§2.1 Definition of a Riemann surface |
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21 | (2) |
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§2.2 Riemann surfaces as smooth 2-manifolds |
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23 | (2) |
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§2.3 Examples of Riemann surfaces |
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25 | (11) |
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36 | (1) |
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Chapter 3 Functions on Riemann Surfaces |
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37 | (24) |
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§3.1 Holomorphic and meromorphic functions |
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37 | (5) |
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§3.2 Global aspects of meromorphic functions |
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42 | (3) |
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§3.3 Holomorphic maps between Riemann surfaces |
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45 | (9) |
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§3.4 An example: Hyperelliptic surfaces |
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54 | (3) |
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§3.5 Harmonic and subharmonic functions |
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57 | (2) |
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59 | (2) |
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Chapter 4 Complex Line Bundles |
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61 | (26) |
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§4.1 Complex line bundles |
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61 | (4) |
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§4.2 Holomorphic line bundles |
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65 | (1) |
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§4.3 Two canonically defined holomorphic line bundles |
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66 | (4) |
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§4.4 Holomorphic vector fields on a Riemann surface |
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70 | (4) |
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§4.5 Divisors and line bundles |
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74 | (5) |
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§4.6 Line bundles over Pn |
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79 | (2) |
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§4.7 Holomorphic sections and projective maps |
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81 | (3) |
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§4.8 A finiteness theorem |
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84 | (1) |
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85 | (2) |
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Chapter 5 Complex Differential Forms |
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87 | (14) |
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§5.1 Differential (1,0)-forms |
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87 | (2) |
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§5.2 TX 0,1 and (0,1)-forms |
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89 | (1) |
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89 | (1) |
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§5.4 AX1,1 and (1,1)-forms |
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90 | (1) |
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§5.5 Exterior algebra and calculus |
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90 | (2) |
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§5.6 Integration of forms |
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92 | (3) |
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95 | (1) |
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§5.8 Homotopy and homology |
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96 | (2) |
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§5.9 Poincare and Dolbeault Lemmas |
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98 | (1) |
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§5.10 Dolbeault cohomology |
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99 | (1) |
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100 | (1) |
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Chapter 6 Calculus on Line Bundles |
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101 | (14) |
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§6.1 Connections on line bundles |
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101 | (3) |
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§6.2 Hermitian metrics and connections |
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104 | (1) |
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§6.3 (1,0)-connections on holomorphic line bundles |
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105 | (1) |
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§6.4 The Chern connection |
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106 | (1) |
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§6.5 Curvature of the Chern connection |
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107 | (2) |
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109 | (2) |
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§6.7 Example: The holomorphic line bundle TX1,0 |
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111 | (1) |
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112 | (3) |
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Chapter 7 Potential Theory |
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115 | (18) |
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§7.1 The Dirichlet Problem and Perron's Method |
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115 | (11) |
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§7.2 Approximation on open Riemann surfaces |
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126 | (4) |
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130 | (3) |
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Chapter 8 Solving ∂ for Smooth Data |
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133 | (12) |
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133 | (1) |
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§8.2 Triviality of holomorphic line bundles |
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134 | (1) |
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§8.3 The Weierstrass Product Theorem |
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135 | (1) |
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§8.4 Meromorphic functions as quotients |
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135 | (1) |
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§8.5 The Mittag-Leffler Problem |
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136 | (4) |
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§8.6 The Poisson Equation on open Riemann surfaces |
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140 | (3) |
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143 | (2) |
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145 | (20) |
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§9.1 The definition and basic properties of harmonic forms |
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145 | (4) |
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§9.2 Harmonic forms and cohomology |
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149 | (2) |
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§9.3 The Hodge decomposition of ε (X) |
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151 | (6) |
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§9.4 Existence of positive line bundles |
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157 | (4) |
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§9.5 Proof of the Dolbeault-Serre isomorphism |
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161 | (1) |
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161 | (4) |
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Chapter 10 Uniformization |
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165 | (12) |
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§10.1 Automorphisms of the complex plane, projective line, and unit disk |
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165 | (1) |
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§10.2 A review of covering spaces |
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166 | (2) |
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§10.3 The Uniformization Theorem |
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168 | (6) |
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§10.4 Proof of the Uniformization Theorem |
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174 | (1) |
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175 | (2) |
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Chapter 11 Hormander's Theorem |
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177 | (20) |
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§11.1 Hilbert spaces of sections |
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177 | (3) |
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180 | (3) |
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§11.3 Hormander's Theorem |
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183 | (1) |
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§11.4 Proof of the Korn-Lichtenstein Theorem |
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184 | (11) |
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195 | (2) |
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Chapter 12 Embedding Riemann Surfaces |
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197 | (14) |
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§12.1 Controlling the derivatives of sections |
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198 | (3) |
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§12.2 Meromorphic sections of line bundles |
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201 | (1) |
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§12.3 Plenitude of meromorphic functions |
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202 | (1) |
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§12.4 Kodaira's Embedding Theorem |
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202 | (2) |
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§12.5 Narasimhan's Embedding Theorem |
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204 | (6) |
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210 | (1) |
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Chapter 13 The Riemann-Roch Theorem |
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211 | (12) |
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§13.1 The Riemann-Roch Theorem |
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211 | (6) |
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217 | (6) |
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Chapter 14 Abel's Theorem |
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223 | (10) |
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§14.1 Indefinite integration of holomorphic forms |
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223 | (2) |
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§14.2 Riemann's Bilinear Relations |
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225 | (3) |
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§14.3 The Reciprocity Theorem |
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228 | (1) |
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§14.4 Proof of Abel's Theorem |
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229 | (2) |
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§14.5 A discussion of Jacobi's Inversion Theorem |
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231 | (2) |
| Bibliography |
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233 | (2) |
| Index |
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235 | |
