Cousin problemsIn mathematics, the Cousin problems are two questions in several complex variables, concerning the existence of meromorphic functions that are specified in terms of local data. They were introduced in special cases by Pierre Cousin in 1895. They are now posed, and solved, for any complex manifold M, in terms of conditions on M. For both problems, an open cover of M by sets Ui is given, along with a meromorphic function fi on each Ui. The first Cousin problem or additive Cousin problem assumes that each difference is a holomorphic function, where it is defined.
Holomorphic vector bundleIn mathematics, a holomorphic vector bundle is a complex vector bundle over a complex manifold X such that the total space E is a complex manifold and the projection map π : E → X is holomorphic. Fundamental examples are the holomorphic tangent bundle of a complex manifold, and its dual, the holomorphic cotangent bundle. A holomorphic line bundle is a rank one holomorphic vector bundle. By Serre's GAGA, the category of holomorphic vector bundles on a smooth complex projective variety X (viewed as a complex manifold) is equivalent to the category of algebraic vector bundles (i.
Fibré en droitesEn mathématiques, un fibré en droites est une construction qui décrit une droite attachée en chaque point d'un espace. Par exemple, une courbe dans le plan possède une tangente en chaque point, et si la courbe est suffisamment lisse alors la tangente évolue de manière « continue » lorsqu'on se déplace sur la courbe. De manière plus formelle on peut définir un fibré en droites comme un fibré vectoriel de rang 1.
Torelli theoremIn mathematics, the Torelli theorem, named after Ruggiero Torelli, is a classical result of algebraic geometry over the complex number field, stating that a non-singular projective algebraic curve (compact Riemann surface) C is determined by its Jacobian variety J(C), when the latter is given in the form of a principally polarized abelian variety. In other words, the complex torus J(C), with certain 'markings', is enough to recover C. The same statement holds over any algebraically closed field.
Variété de drapeaux généraliséeEn mathématiques, une variété de drapeaux généralisée ou tordue est un espace homogène d'un groupe (algébrique ou de Lie) qui généralise les espaces projectifs, les grassmanniennes, les quadriques projectives et l'espace de tous les drapeaux de signature donnée d'un espace vectoriel. La plupart des espaces homogènes de points ou de figures de la géométrie classique sont des variétés de drapeaux généralisées ou des espaces symétriques ou des variétés symétriques (analogues en géométrie algébrique des espaces symétriques), ou leur sont liés.
Hodge structureIn mathematics, a Hodge structure, named after W. V. D. Hodge, is an algebraic structure at the level of linear algebra, similar to the one that Hodge theory gives to the cohomology groups of a smooth and compact Kähler manifold. Hodge structures have been generalized for all complex varieties (even if they are singular and non-complete) in the form of mixed Hodge structures, defined by Pierre Deligne (1970). A variation of Hodge structure is a family of Hodge structures parameterized by a manifold, first studied by Phillip Griffiths (1968).
Calabi conjectureIn the mathematical field of differential geometry, the Calabi conjecture was a conjecture about the existence of certain kinds of Riemannian metrics on certain complex manifolds, made by . It was proved by , who received the Fields Medal and Oswald Veblen Prize in part for his proof. His work, principally an analysis of an elliptic partial differential equation known as the complex Monge–Ampère equation, was an influential early result in the field of geometric analysis.
Structure presque complexeEn géométrie différentielle, une structure presque complexe sur une variété différentielle réelle est la donnée d'une structure d'espace vectoriel complexe sur chaque espace tangent. Une structure presque complexe J sur une variété différentielle M est un champ d'endomorphismes J, c'est-à-dire une section globale du fibré vectoriel , vérifiant : Une variété différentielle munie d'une structure presque complexe est appelée une variété presque complexe.
Fano varietyIn algebraic geometry, a Fano variety, introduced by Gino Fano in , is a complete variety X whose anticanonical bundle KX* is ample. In this definition, one could assume that X is smooth over a field, but the minimal model program has also led to the study of Fano varieties with various types of singularities, such as terminal or klt singularities. Recently techniques in differential geometry have been applied to the study of Fano varieties over the complex numbers, and success has been found in constructing moduli spaces of Fano varieties and proving the existence of Kähler–Einstein metrics on them through the study of K-stability of Fano varieties.
