Hyperbolic Lie algebras and quasi-regular cusps on Hilbert modular surfaces
Identifieur interne : 002C27 ( Main/Merge ); précédent : 002C26; suivant : 002C28Hyperbolic Lie algebras and quasi-regular cusps on Hilbert modular surfaces
Auteurs : James Lepowsky [États-Unis] ; Robert V. Moody [Canada]Source :
- Mathematische Annalen [ 0025-5831 ] ; 1979-02-01.
English descriptors
- KwdEn :
- Algebra, Analytic function, Arbitrary point, Bilinear form, Cartan matrix, Certain power, Character formula, Coefficient, Coefficient ring, Compact neighborhood, Compact sets, Compact subset, Compact subsets, Consecutive support points, Convergence, Convergent series, Converges, Cusp, Dominant chamber, Dual root system, English translation, Finite sets, Finite subset, Formal expansion, Formal series, Fourier series, Full module, Highest weight, Hyperbola, Hyperbolic, Hyperbolic root system, Hyperbolic root systems, Imaginary roots, Infinite cyclic, Isometry, Lattice, Lecture notes, Lepowsky, Local ring, Local structure, Matrix, Minimal trace, Module, Negative integers, Open cone, Other hand, Partial products, Polygon, Positive integer, Positive roots, Positive unit, Positive units, Power series, Product formula, Quadrant, Quadratic form, Quotient space, Real roots, Root lattice, Root system, Root systems, Same line, Sect, Series converges, Subgroup, Subset, Support line, Support points, Support polygon, Support polygons, Support segment, Support segments, Symmetric cusp, Theorem theorem, Uniformizing parameters, Weight lattice, Weyl group.
- Teeft :
- Algebra, Analytic function, Arbitrary point, Bilinear form, Cartan matrix, Certain power, Character formula, Coefficient, Coefficient ring, Compact neighborhood, Compact sets, Compact subset, Compact subsets, Consecutive support points, Convergence, Convergent series, Converges, Cusp, Dominant chamber, Dual root system, English translation, Finite sets, Finite subset, Formal expansion, Formal series, Fourier series, Full module, Highest weight, Hyperbola, Hyperbolic, Hyperbolic root system, Hyperbolic root systems, Imaginary roots, Infinite cyclic, Isometry, Lattice, Lecture notes, Lepowsky, Local ring, Local structure, Matrix, Minimal trace, Module, Negative integers, Open cone, Other hand, Partial products, Polygon, Positive integer, Positive roots, Positive unit, Positive units, Power series, Product formula, Quadrant, Quadratic form, Quotient space, Real roots, Root lattice, Root system, Root systems, Same line, Sect, Series converges, Subgroup, Subset, Support line, Support points, Support polygon, Support polygons, Support segment, Support segments, Symmetric cusp, Theorem theorem, Uniformizing parameters, Weight lattice, Weyl group.
Url:
DOI: 10.1007/BF01420431
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ISTEX:F5A8DF6E035D6DD0E5DAECE18A2AFD6DB27A061BLe document en format XML
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<author><name sortKey="Moody, Robert V" sort="Moody, Robert V" uniqKey="Moody R" first="Robert V." last="Moody">Robert V. Moody</name>
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<sourceDesc><biblStruct><analytic><title level="a" type="main" xml:lang="en">Hyperbolic Lie algebras and quasi-regular cusps on Hilbert modular surfaces</title>
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<author><name sortKey="Moody, Robert V" sort="Moody, Robert V" uniqKey="Moody R" first="Robert V." last="Moody">Robert V. Moody</name>
<affiliation wicri:level="1"><country xml:lang="fr">Canada</country>
<wicri:regionArea>Department of Mathematics, University of Saskatchewan, S7N OWO, Saskatoon</wicri:regionArea>
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<term>Arbitrary point</term>
<term>Bilinear form</term>
<term>Cartan matrix</term>
<term>Certain power</term>
<term>Character formula</term>
<term>Coefficient</term>
<term>Coefficient ring</term>
<term>Compact neighborhood</term>
<term>Compact sets</term>
<term>Compact subset</term>
<term>Compact subsets</term>
<term>Consecutive support points</term>
<term>Convergence</term>
<term>Convergent series</term>
<term>Converges</term>
<term>Cusp</term>
<term>Dominant chamber</term>
<term>Dual root system</term>
<term>English translation</term>
<term>Finite sets</term>
<term>Finite subset</term>
<term>Formal expansion</term>
<term>Formal series</term>
<term>Fourier series</term>
<term>Full module</term>
<term>Highest weight</term>
<term>Hyperbola</term>
<term>Hyperbolic</term>
<term>Hyperbolic root system</term>
<term>Hyperbolic root systems</term>
<term>Imaginary roots</term>
<term>Infinite cyclic</term>
<term>Isometry</term>
<term>Lattice</term>
<term>Lecture notes</term>
<term>Lepowsky</term>
<term>Local ring</term>
<term>Local structure</term>
<term>Matrix</term>
<term>Minimal trace</term>
<term>Module</term>
<term>Negative integers</term>
<term>Open cone</term>
<term>Other hand</term>
<term>Partial products</term>
<term>Polygon</term>
<term>Positive integer</term>
<term>Positive roots</term>
<term>Positive unit</term>
<term>Positive units</term>
<term>Power series</term>
<term>Product formula</term>
<term>Quadrant</term>
<term>Quadratic form</term>
<term>Quotient space</term>
<term>Real roots</term>
<term>Root lattice</term>
<term>Root system</term>
<term>Root systems</term>
<term>Same line</term>
<term>Sect</term>
<term>Series converges</term>
<term>Subgroup</term>
<term>Subset</term>
<term>Support line</term>
<term>Support points</term>
<term>Support polygon</term>
<term>Support polygons</term>
<term>Support segment</term>
<term>Support segments</term>
<term>Symmetric cusp</term>
<term>Theorem theorem</term>
<term>Uniformizing parameters</term>
<term>Weight lattice</term>
<term>Weyl group</term>
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<term>Analytic function</term>
<term>Arbitrary point</term>
<term>Bilinear form</term>
<term>Cartan matrix</term>
<term>Certain power</term>
<term>Character formula</term>
<term>Coefficient</term>
<term>Coefficient ring</term>
<term>Compact neighborhood</term>
<term>Compact sets</term>
<term>Compact subset</term>
<term>Compact subsets</term>
<term>Consecutive support points</term>
<term>Convergence</term>
<term>Convergent series</term>
<term>Converges</term>
<term>Cusp</term>
<term>Dominant chamber</term>
<term>Dual root system</term>
<term>English translation</term>
<term>Finite sets</term>
<term>Finite subset</term>
<term>Formal expansion</term>
<term>Formal series</term>
<term>Fourier series</term>
<term>Full module</term>
<term>Highest weight</term>
<term>Hyperbola</term>
<term>Hyperbolic</term>
<term>Hyperbolic root system</term>
<term>Hyperbolic root systems</term>
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<term>Local ring</term>
<term>Local structure</term>
<term>Matrix</term>
<term>Minimal trace</term>
<term>Module</term>
<term>Negative integers</term>
<term>Open cone</term>
<term>Other hand</term>
<term>Partial products</term>
<term>Polygon</term>
<term>Positive integer</term>
<term>Positive roots</term>
<term>Positive unit</term>
<term>Positive units</term>
<term>Power series</term>
<term>Product formula</term>
<term>Quadrant</term>
<term>Quadratic form</term>
<term>Quotient space</term>
<term>Real roots</term>
<term>Root lattice</term>
<term>Root system</term>
<term>Root systems</term>
<term>Same line</term>
<term>Sect</term>
<term>Series converges</term>
<term>Subgroup</term>
<term>Subset</term>
<term>Support line</term>
<term>Support points</term>
<term>Support polygon</term>
<term>Support polygons</term>
<term>Support segment</term>
<term>Support segments</term>
<term>Symmetric cusp</term>
<term>Theorem theorem</term>
<term>Uniformizing parameters</term>
<term>Weight lattice</term>
<term>Weyl group</term>
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