| Introduction |
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ix | |
| Some History |
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xii | |
| A Sketch of the Proof of the Fekete-Szego Theorem |
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xiii | |
| The Definition of the Cantor Capacity |
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xvi | |
| Outline of the Book |
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xix | |
| Acknowledgments |
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xxiv | |
| Symbol Table |
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xxv | |
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1 | (8) |
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Chapter 2 Examples and Applications |
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9 | (52) |
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1 Local Capacities and Green's Functions of Archimedean Sets |
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9 | (11) |
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2 Local Capacities and Green's Functions of Nonarchimedean Sets |
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20 | (7) |
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27 | (11) |
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4 Function Field Examples concerning Separability |
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38 | (2) |
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5 Examples on Elliptic Curves |
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40 | (13) |
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53 | (4) |
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7 The Modular Curve Xo(p) |
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57 | (4) |
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61 | (42) |
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1 Notation and Conventions |
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61 | (1) |
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62 | (2) |
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3 The L-rational and Lsep-rational Bases |
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64 | (5) |
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4 The Spherical Metric and Isometric Parametrizability |
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69 | (4) |
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5 The Canonical Distance and the (x, s)-Canonical Distance |
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73 | (4) |
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6 (x, s)-Functions and (x, s)-Pseudopolynomials |
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77 | (1) |
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78 | (3) |
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8 Green's Functions of Compact Sets |
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81 | (4) |
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9 Upper Green's Functions |
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85 | (6) |
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10 Green's Matrices and the Inner Cantor Capacity |
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91 | (3) |
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11 Newton Polygons of Nonarchimedean Power Series |
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94 | (4) |
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12 Stirling Polynomials and the Sequence ψw(k) |
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98 | (5) |
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103 | (30) |
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Chapter 5 Initial Approximating Functions: Archimedean Case |
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133 | (26) |
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1 The Approximation Theorems |
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134 | (2) |
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2 Outline of the Proof of Theorem 5.2 |
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136 | (5) |
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141 | (3) |
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144 | (15) |
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Chapter 6 Initial Approximating Functions: Nonarchimedean Case |
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159 | (32) |
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1 The Approximation Theorems |
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160 | (2) |
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2 Reduction to a Set Ev in a Single Ball |
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162 | (9) |
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3 Generalized Stirling Polynomials |
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171 | (3) |
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4 Proof of Proposition 6.5 |
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174 | (12) |
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5 Corollaries to the Proof of Theorem 6.3 |
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186 | (5) |
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Chapter 7 The Global Patching Construction |
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191 | (58) |
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1 The Uniform Strong Approximation Theorem |
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193 | (2) |
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195 | (1) |
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196 | (3) |
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4 Proof of Theorem 4.2 when char(K) = 0 |
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199 | (24) |
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5 Proof of Theorem 4.2 when Char(K) =p > 0 |
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223 | (19) |
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6 Proof of Proposition 7.18 |
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242 | (7) |
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Chapter 8 Local Patching when Kv C |
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249 | (8) |
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Chapter 9 Local Patching when Kv R |
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257 | (12) |
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Chapter 10 Local Patching for Nonarchimedean RL-domains |
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269 | (10) |
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Chapter 11 Local Patching for Nonarchimedean Kv-simple Sets |
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279 | (52) |
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284 | (9) |
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2 Stirling Polynomials when Char(Kv) = p > 0 |
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293 | (1) |
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3 Proof of Theorems 11.1 and 11.2 |
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294 | (24) |
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4 Proofs of the Moving Lemmas |
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318 | (13) |
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Appendix A (x, s)-Potential Theory |
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331 | (20) |
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1 (x, s)-Potential Theory for Compact Sets |
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331 | (8) |
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2 Mass Bounds in the Archimedean Case |
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339 | (2) |
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3 Description of μx,s in the Nonarchimedean Case |
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341 | (10) |
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Appendix B The Construction of Oscillating Pseudopolynomials |
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351 | (38) |
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1 Weighted (x, s)-Capacity Theory |
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353 | (3) |
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2 The Weighted Cheybshev Constant |
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356 | (5) |
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3 The Weighted Transfinite Diameter |
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361 | (5) |
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366 | (4) |
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5 Particular Cases of Interest |
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370 | (8) |
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6 Chebyshev Pseudopolynomials for Short Intervals |
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378 | (4) |
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7 Oscillating Pseudopolynomials |
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382 | (7) |
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Appendix C The Universal Function |
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389 | (18) |
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Appendix D The Local Action of the Jacobian |
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407 | (16) |
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1 The Local Action of the Jacobian on Cgv |
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409 | (2) |
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2 Lemmas on Power Series in Several Variables |
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411 | (3) |
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3 Proof of the Local Action Theorem |
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414 | (9) |
| Bibliography |
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423 | (4) |
| Index |
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427 | |
