"Elliptic-Parabolic-Hyperbolic trichotomy in mathematics"의 두 판 사이의 차이
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| + | * Terragni, T. “Data about Hyperbolic Coxeter Systems.” arXiv:1503.08764 [math], March 30, 2015. http://arxiv.org/abs/1503.08764. | ||
* Rastegar, Arash. ‘EPH-Classifications in Geometry, Algebra, Analysis and Arithmetic’. arXiv:1503.07859 [math], 26 March 2015. http://arxiv.org/abs/1503.07859. | * Rastegar, Arash. ‘EPH-Classifications in Geometry, Algebra, Analysis and Arithmetic’. arXiv:1503.07859 [math], 26 March 2015. http://arxiv.org/abs/1503.07859. | ||
* Totaro, Burt. ‘Algebraic Surfaces and Hyperbolic Geometry’. ArXiv E-Prints 1008 (1 August 2010): 3825. | * Totaro, Burt. ‘Algebraic Surfaces and Hyperbolic Geometry’. ArXiv E-Prints 1008 (1 August 2010): 3825. | ||
2015년 3월 31일 (화) 03:50 판
introduction
algebraic geometry
- Let $X$ be a smooth complex projective variety. There are three main types of varieties.
- Not every variety is of one of these three types, but minimal model theory relates every variety to one of these extreme types
- Fano. This means that $−K_X$ is ample. (We recall the definition of ampleness in section 2.)
- Calabi-Yau. We define this to mean that $K_X$ is numerically trivial.
- ample canonical bundle. This means that $K_X$ is ample; it implies that $X$ is of general type.”
- Here, for $X$ of complex dimension $n$, the canonical bundle $K_X$ is the line bundle $\Omega^n_X$ of $n$-forms.
- We write $−K_X$ for the dual line bundle $K^∗_X$, the determinant of the tangent bundle.
memo
articles
- Terragni, T. “Data about Hyperbolic Coxeter Systems.” arXiv:1503.08764 [math], March 30, 2015. http://arxiv.org/abs/1503.08764.
- Rastegar, Arash. ‘EPH-Classifications in Geometry, Algebra, Analysis and Arithmetic’. arXiv:1503.07859 [math], 26 March 2015. http://arxiv.org/abs/1503.07859.
- Totaro, Burt. ‘Algebraic Surfaces and Hyperbolic Geometry’. ArXiv E-Prints 1008 (1 August 2010): 3825.