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线性代数群上的丢番图逼近

  2020-07-24 00:00:00  

线性代数群上的丢番图逼近 本书特色

该书主要解普通指数函数e^z的值。一个关键的公开问题是超越数上的对数的代数无关性。该书涵盖了hermite lindemann定理、gelfond-schneider定理、6指数定理,通过探讨莱默猜想介绍了高度函数, 贝克定理的证明和对数的线性独立性的显式测度。该书的特色是系统地利用了劳伦特插值行列式来得出论据,*一般性的结论是所谓的线性群理论,新的是关于同时逼近和代数无关性的结论。

线性代数群上的丢番图逼近 目录

prerequisites notation 1.introduction and historical survey 1.1 liouville.hermite.lindemann,gel'fond,baker 1.2 lowef bounds for|a1b1…ambm—1| 1.3 the six exponentials theorem and the four exponentials conjecture 1.4 algebraic independence of logarithms 1.5 diophantine approximation on linear algebraic groups exercises part ⅰ.transcendence 2.transcendence proofs in one variable 2.1 inrroduction to transcendence proofs 2.2 auxiliary lemmas 2.3 schneider's method with akemants—real case 2.4 gel'fond's method with interpolation determinants—real case 2.5 gel'fond—schneider's theorem in the complex case 2.6 hermite—lindemann's theorem in the complex case exercises 3.heights of algebraic numbers 3.1 absolute values on a numbef field 3.2 the absolute logarithmic height(weil) 3.3 mahler's measure 3.4 usual height and size 3.5 liouville's inequalities 3.6 lower bound for the height open problems exercises appendix—inequalities between different heights of a polynomial—from a manuscript by alain durand 4.the criterion of schneider lang 4.1 algebraic values of entifc functions satisfying differenual equauons 4.2 first proof of baker's theorem 4.3 schwarz' lemma for cartesian products 4.4 exponential polynomials 4.5 construction of an auxiliary function 4.6 direct proof of corollary 4.2 exercises part ⅱ.linear independence of logarithms and measures 5.zero estimate,by damien roy 5.1 the main result 5.2 some algebraic geomerry 5.3 the group g and its algebraic subgroups 5.4 proof of the main result exercises 6.linear independence of logarithms of algebraic numbers 6.1 applying the zero estimate 6.2 upper bounds for altemants in several variables 6.3 a second proof of baker's homogeneous theorem exercises 7.homogeneous measures of linear independence 7.1 statement of the measure 7.2 lower bound for a zero multiplicity 7.3 upper bound for the arithmetic determinant 7.4 construction of a nonzero determinant 7.5 the transcendence argument—general case 7.6 proof of theorem 7.1—general case 7.7 the rational case: fel'dman's polynomials 7.8 linear dependence relations between logarithms open problems exercises part ⅲ.multiplicities in higher dimension 8.multiplicity estimates,by damien roy 8.1 the main result 8.2 some commutative algebra 8.3 the group g and its invariant derivations 8.4 proof of the main result exercises 9.refined measures 9.1 second proof of baker's nonhomogeneous theorem 9.2 proof of theorem 9.1 9.3 value of c(m) 9.4 corollaries exercises 10.on baker's method 10.1 linear independence of logarithms of algebraic numbers 10.2 baker's method with interpolation determinants 10.3 baker's method with auxiliary function 10.4 the state of the art exercises part ⅳ.the linear subgroup theorem 11.points whose coordinates are logarithms of algebraic numbers 11.1 introduction 11.2 one parameter subgroups 11.3 six variants of the main result 11.4 linear independcnce of logarithms 11.5 complex toruses 11.6 linear combinations of logarithms with algebfaic coefficients 11.7 proof of the linear subgroup theorem exercises 12.lower bounds for the rank of matrices 12.1 entries are linear polynomials 12.2 entries are logarithms of algebraic numbers 12.3 entries are linear combinations of logarithms 12.4 assuming the conjecture on algebraic independence of logarithms 12.5 quadratic relauons exercises part ⅴ.sunultaneous apprmamation of values of the exponential function in several variables 13.a quantitative version of the linear subgroup theorem 13.1 the main result 13.2 analytic estimates 13.3 exponcntial polynomials 13.4 proof of theorem 13.1 13.5 directions for use 13.6 introducing feld' man's polynomials 13.7 duality: the fouricr—borel transform exercises 14.applications to diophantine approximation 14.1 a quantitative refinement to gel'fond—schneider's theorem 14.2 a quantitative refinement to hermite—lindemann's theorem 14.3 simultaneous approximation in higher dimension 14.4 measures of linear independence of logarithms(again) open problems exercises 15.algebraic independence 15.1 criteria: irrationality,transcendence,algebraic independence 15.2 from simultaneous approximation to algebraic independence 15.3 algcbraic independence results: small transcendence degree 15.4 large transcendence degree: conjecture on simultaneous approximation 15.5 further results and conjectures exercises references index

线性代数群上的丢番图逼近 作者简介

Michel Waldschmidt(M.瓦尔德施密特,法国)是国际知名学者,在数学界享有盛誉。本书凝聚了作者多年科研和教学成果,适用于科研工作者、高校教师和研究生。

线性代数群上的丢番图逼近

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