{"title":"复射影空间中复子流形的fubini-study距离的levi形式的Takeuchi等式","authors":"Kazuko Matsumoto","doi":"10.2206/KYUSHUJM.72.107","DOIUrl":null,"url":null,"abstract":"A. Takeuchi showed that the negative logarithm of the Fubini–Study boundary distance function of pseudoconvex domains in the complex projective space CPn , n ∈ N, is strictly plurisubharmonic and solved the Levi problem for CPn . His estimate from below of the Levi form is nowadays called the ‘Takeuchi’s inequality.’ In this paper, we give the ‘Takeuchi’s equality,’ i.e. an explicit representation of the Levi form of the negative logarithm of the Fubini–Study distance to complex submanifolds in CPn . 0. Introduction Let D (CPn , n ∈ N, be a pseudoconvex domain and denote by δ∂D(P) the Fubini– Study distance from P ∈ D to the boundary ∂D of D. Takeuchi [21] found that the strict subharmonicity of the function −log tan−1|z| on C \\ {0} leads the strict plurisubharmonicity of the function −log δ∂D on D, and solved the Levi problem for CPn . The inequality i∂∂̄(−log δ∂D)≥ 3ωF S on D is nowadays called the ‘Takeuchi’s inequality’ (cf. [1, 7, 9, 20, 22]). Recently, many mathematicians have been interested in the following problem: ‘Is there a smooth closed Levi-flat real hypersurface in CPn if n ≥ 2?’, where a real hypersurface M ⊂ CPn is said to be Levi-flat if its complement CPn \\ M is locally pseudoconvex or equivalently locally Stein. When n ≥ 3, Lins Neto [11] proved the non-existence in the real analytic case, and Siu [19] proved it in the smooth case. When n = 2, the non-existence problem is still open even in the real analytic case. Then Takeuchi’s inequality is one of the key points to approach the non-existence problem or related topics. His paper [21] is frequently cited even now although he wrote it over 50 years ago (for example, see Adachi [1], Adachi and Brinkschulte [2], Brinkschulte [5], Brunella [6], Fu and Shaw [8], Harrington and Shaw [10], Ohsawa [16, 17], and Ohsawa and Sibony [18]). It follows from Takeuchi’s theorem that if S is a complex hypersurface in CPn and if δS denotes the Fubini–Study distance to S, then the function−log δS is strictly plurisubharmonic 2010 Mathematics Subject Classification: Primary 32E40, 32C25.","PeriodicalId":0,"journal":{"name":"","volume":null,"pages":null},"PeriodicalIF":0.0,"publicationDate":"2018-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Takeuchi’s equality for the levi form of the fubini–study distance to complex submanifolds in complex projective spaces\",\"authors\":\"Kazuko Matsumoto\",\"doi\":\"10.2206/KYUSHUJM.72.107\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"A. Takeuchi showed that the negative logarithm of the Fubini–Study boundary distance function of pseudoconvex domains in the complex projective space CPn , n ∈ N, is strictly plurisubharmonic and solved the Levi problem for CPn . His estimate from below of the Levi form is nowadays called the ‘Takeuchi’s inequality.’ In this paper, we give the ‘Takeuchi’s equality,’ i.e. an explicit representation of the Levi form of the negative logarithm of the Fubini–Study distance to complex submanifolds in CPn . 0. Introduction Let D (CPn , n ∈ N, be a pseudoconvex domain and denote by δ∂D(P) the Fubini– Study distance from P ∈ D to the boundary ∂D of D. Takeuchi [21] found that the strict subharmonicity of the function −log tan−1|z| on C \\\\ {0} leads the strict plurisubharmonicity of the function −log δ∂D on D, and solved the Levi problem for CPn . The inequality i∂∂̄(−log δ∂D)≥ 3ωF S on D is nowadays called the ‘Takeuchi’s inequality’ (cf. [1, 7, 9, 20, 22]). Recently, many mathematicians have been interested in the following problem: ‘Is there a smooth closed Levi-flat real hypersurface in CPn if n ≥ 2?’, where a real hypersurface M ⊂ CPn is said to be Levi-flat if its complement CPn \\\\ M is locally pseudoconvex or equivalently locally Stein. When n ≥ 3, Lins Neto [11] proved the non-existence in the real analytic case, and Siu [19] proved it in the smooth case. When n = 2, the non-existence problem is still open even in the real analytic case. Then Takeuchi’s inequality is one of the key points to approach the non-existence problem or related topics. His paper [21] is frequently cited even now although he wrote it over 50 years ago (for example, see Adachi [1], Adachi and Brinkschulte [2], Brinkschulte [5], Brunella [6], Fu and Shaw [8], Harrington and Shaw [10], Ohsawa [16, 17], and Ohsawa and Sibony [18]). It follows from Takeuchi’s theorem that if S is a complex hypersurface in CPn and if δS denotes the Fubini–Study distance to S, then the function−log δS is strictly plurisubharmonic 2010 Mathematics Subject Classification: Primary 32E40, 32C25.\",\"PeriodicalId\":0,\"journal\":{\"name\":\"\",\"volume\":null,\"pages\":null},\"PeriodicalIF\":0.0,\"publicationDate\":\"2018-01-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"\",\"FirstCategoryId\":\"100\",\"ListUrlMain\":\"https://doi.org/10.2206/KYUSHUJM.72.107\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"","FirstCategoryId":"100","ListUrlMain":"https://doi.org/10.2206/KYUSHUJM.72.107","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
摘要
A. Takeuchi证明了复射影空间CPn (n∈n)中伪凸域的Fubini-Study边界距离函数的负对数是严格多次调和的,并解决了CPn的Levi问题。他对李维形式的估计现在被称为“竹内不等式”。在本文中,我们给出了“Takeuchi等式”,即CPn中复子流形的Fubini-Study距离的负对数的Levi形式的显式表示。0. 设D(CPn, n∈n)为伪凸域,用δ∂D(P)表示富比尼-研究从P∈D到D的边界∂D的距离。Takeuchi[21]发现函数- log tan - 1|z|在C \{0}上的严格亚调和性导致函数- log δ∂D在D上的严格多亚调和性,并解决了CPn的Levi问题。不等式i∂∂(−log δ∂D)≥3ω fs on D现在被称为“Takeuchi不等式”(参见[1,7,9,20,22])。近年来,许多数学家对以下问题很感兴趣:当n≥2时,CPn中是否存在光滑闭合的列维平坦实超曲面?,其中实超曲面M∧CPn如果其补集CPn \ M是局部伪凸或等价的局部斯坦因,则称其为列维平坦。当n≥3时,Lins Neto[11]证明了实解析情况下的不存在性,Siu[19]证明了光滑情况下的不存在性。当n = 2时,即使在实际解析情况下,不存在性问题仍然是开放的。因此,竹内不等式是研究不存在问题或相关课题的关键之一。他的论文[21]虽然写于50多年前,但至今仍被频繁引用(如:Adachi[1]、Adachi and Brinkschulte[2]、Brinkschulte[5]、Brunella[6]、Fu and Shaw[8]、Harrington and Shaw[10]、Ohsawa[16, 17]、Ohsawa and Sibony[18])。由Takeuchi定理可知,如果S是CPn中的一个复超曲面,且δS表示到S的Fubini-Study距离,则函数- log δS是严格的多次谐波。
Takeuchi’s equality for the levi form of the fubini–study distance to complex submanifolds in complex projective spaces
A. Takeuchi showed that the negative logarithm of the Fubini–Study boundary distance function of pseudoconvex domains in the complex projective space CPn , n ∈ N, is strictly plurisubharmonic and solved the Levi problem for CPn . His estimate from below of the Levi form is nowadays called the ‘Takeuchi’s inequality.’ In this paper, we give the ‘Takeuchi’s equality,’ i.e. an explicit representation of the Levi form of the negative logarithm of the Fubini–Study distance to complex submanifolds in CPn . 0. Introduction Let D (CPn , n ∈ N, be a pseudoconvex domain and denote by δ∂D(P) the Fubini– Study distance from P ∈ D to the boundary ∂D of D. Takeuchi [21] found that the strict subharmonicity of the function −log tan−1|z| on C \ {0} leads the strict plurisubharmonicity of the function −log δ∂D on D, and solved the Levi problem for CPn . The inequality i∂∂̄(−log δ∂D)≥ 3ωF S on D is nowadays called the ‘Takeuchi’s inequality’ (cf. [1, 7, 9, 20, 22]). Recently, many mathematicians have been interested in the following problem: ‘Is there a smooth closed Levi-flat real hypersurface in CPn if n ≥ 2?’, where a real hypersurface M ⊂ CPn is said to be Levi-flat if its complement CPn \ M is locally pseudoconvex or equivalently locally Stein. When n ≥ 3, Lins Neto [11] proved the non-existence in the real analytic case, and Siu [19] proved it in the smooth case. When n = 2, the non-existence problem is still open even in the real analytic case. Then Takeuchi’s inequality is one of the key points to approach the non-existence problem or related topics. His paper [21] is frequently cited even now although he wrote it over 50 years ago (for example, see Adachi [1], Adachi and Brinkschulte [2], Brinkschulte [5], Brunella [6], Fu and Shaw [8], Harrington and Shaw [10], Ohsawa [16, 17], and Ohsawa and Sibony [18]). It follows from Takeuchi’s theorem that if S is a complex hypersurface in CPn and if δS denotes the Fubini–Study distance to S, then the function−log δS is strictly plurisubharmonic 2010 Mathematics Subject Classification: Primary 32E40, 32C25.
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