Submission declined on 2 November 2023 by North8000 (talk). This draft's references do not show that the subject qualifies for a Wikipedia article. In summary, the draft needs multiple published sources that are:
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- Comment: The relevant wp:notability guidelines require in depth coverage of the topic in independent sources. This article/topic misses that standard by quite a bit. The only sources are written by Nadel. If such sources do not exist I would suggest ending your effort to create a separate article on this. I don't know this specialized field well enough to know if it would be a suitable section in a different article. I do have one other bit of critique which is NOT the reason for this rejection. To an average reader, this uses unfamiliar specialized terms to explain an unfamiliar specialized topic. I would suggest being more explanatory. North8000 (talk) 13:08, 2 November 2023 (UTC)
This is a draft article. It is a work in progress open to editing by anyone. Please ensure core content policies are met before publishing it as a live Wikipedia article. Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL Last edited by Citation bot (talk | contribs) 2 months ago. (Update)
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AFC comment (self): This theorem can potentially be merged into the multiplier ideal as a result related to multiplier ideal sheaves.
In mathematics, Nadel vanishing theorem[1] is a global vanishing theorem for multiplier ideals.[note 1] This theorem is a generalization of the Kodaira vanishing theorem using singular metrics with (strictly) positive curvature, and also it can be seen as an analytical analogue of the Kawamata–Viehweg vanishing theorem.
Statement edit
Nadel vanishing theorem:[3][4][5] Let X be a smooth complex projective variety, D an effective -divisor and L a line bundle on X, and is a multiplier ideal sheaves. Assume that is big and nef. Then
for analytic edit
Nadel vanishing theorem for analytic:[6][7] Let be a Kähler manifold (X be a reduced complex space(Complex analytic variety) with a Kähler metric) such that weakly pseudoconvex, and let F be a holomorphic line bundle over X equipped with a singular hermitian metric of weight . Assume that for some continuous positive function on X. Then
Let arbitrary plurisubharmonic function on , then a multiplier ideal sheaf is a coherent on , and therefore its zero variety is an analytic set.
References edit
Citations edit
- ^ (Nadel 1990)
- ^ (Nadel 1989)
- ^ (Lazarsfeld 2004, Theorem 9.4.8.)
- ^ (Demailly, Ein & Lazarsfeld 2000)
- ^ (Fujino 2011, Theorem 3.2)
- ^ (Lazarsfeld 2004, Theorem 9.4.21.)
- ^ (Demailly 1998–1999)
Bibliography edit
- Nadel, Alan Michael (1989). "Multiplier ideal sheaves and existence of Kähler-Einstein metrics of positive scalar curvature". Proceedings of the National Academy of Sciences of the United States of America. 86 (19): 7299–7300. Bibcode:1989PNAS...86.7299N. doi:10.1073/pnas.86.19.7299. JSTOR 34630. MR 1015491. PMC 298048. PMID 16594070.
- Nadel, Alan Michael (1990). "Multiplier Ideal Sheaves and Kahler-Einstein Metrics of Positive Scalar Curvature". Annals of Mathematics. 132 (3): 549–596. doi:10.2307/1971429. JSTOR 1971429.
- Lazarsfeld, Robert (2004). "Multiplier Ideal Sheaves". Positivity in Algebraic Geometry II. pp. 139–231. doi:10.1007/978-3-642-18810-7_5. ISBN 978-3-540-22531-7.
- Fujino, Osamu (2011). "Fundamental Theorems for the Log Minimal Model Program". Publications of the Research Institute for Mathematical Sciences. 47 (3): 727–789. doi:10.2977/PRIMS/50. S2CID 50561502.
- Demailly, Jean-Pierre (1998–1999). "Méthodes L2 et résultats effectifs en géométrie algébrique". Séminaire Bourbaki. 41: 59–90.
Further reading edit
- Ohsawa, Takeo (2018). "Analyzing the Analyzing the - Cohomology". L2 Approaches in Several Complex Variables. Springer Monographs in Mathematics. pp. 47–114. doi:10.1007/978-4-431-56852-0_2. ISBN 978-4-431-56851-3.
- Matsumura, Shin-Ichi (2015). "A Nadel vanishing theorem for metrics with minimal singularities on big line bundles". Advances in Mathematics. 280: 188–207. doi:10.1016/j.aim.2015.03.019. S2CID 119297787.
- Matsumura, Shin-Ichi (2017). "An injectivity theorem with multiplier ideal sheaves of singular metrics with transcendental singularities". Journal of Algebraic Geometry. 27 (2): 305–337. arXiv:1308.2033. doi:10.1090/jag/687. S2CID 119323658.
- Demailly, Jean-Pierre; Ein, Lawrence; Lazarsfeld, Robert (2000). "A subadditivity property of multiplier ideals". Michigan Mathematical Journal. 48. doi:10.1307/mmj/1030132712. S2CID 11443349.
- Demailly, Jean-Pierre (1993). "A numerical criterion for very ample line bundles". Journal of Differential Geometry. 37 (2). doi:10.4310/jdg/1214453680. S2CID 18938872.
- Demailly, Jean-Pierre (1995). "L2-Methods and Effective Results in Algebraic Geometry". Proceedings of the International Congress of Mathematicians. pp. 817–827. doi:10.1007/978-3-0348-9078-6_75. ISBN 978-3-0348-9897-3.
- Demailly, Jean-Pierre (2000). "On the Ohsawa-Takegoshi-Manivel L 2 extension theorem". Complex Analysis and Geometry. Progress in Mathematics. Vol. 188. pp. 47–82. doi:10.1007/978-3-0348-8436-5_3. ISBN 978-3-0348-9566-8.
- Cao, Junyan (2014). "Numerical dimension and a Kawamata–Viehweg–Nadel-type vanishing theorem on compact Kähler manifolds". Compositio Mathematica. 150 (11): 1869–1902. doi:10.1112/S0010437X14007398. S2CID 17960658.
- Matsumura, Shin-Ichi (2014). "A Nadel vanishing theorem via injectivity theorems". Mathematische Annalen. 359 (3–4): 785–802. doi:10.1007/s00208-014-1018-6. S2CID 253718483.
Footnote edit
Category:Theorems in algebraic geometry Category:Theorems in complex geometry