Complex structures on product of circle bundles over complex manifolds

Sankaran, Parameswaran; Thakur, Ajay Singh

doi:10.5802/aif.2805

Complex structures on product of circle bundles over complex manifolds
[Structures complexes sur les produit de fibrés en cercles au-dessus des variétés complexes]

Sankaran, Parameswaran ¹ ; Thakur, Ajay Singh ²

¹ The Institute of Mathematical Sciences, CIT Campus, Taramani, Chennai 600113, India
² Indian Statistical Institute, 8th Mile, Mysore Road, RVCE Post Bangalore 560059, India

Annales de l'Institut Fourier, Tome 63 (2013) no. 4, pp. 1331-1366.

Résumé
Abstract

Soient ${\bar{L}}_{i} \to X_{i}$ des fibrés en droites holomorphes sur des variétés complexes compactes, pour $i = 1, 2$ . Soit $S_{i}$ le fibré en cercles associé par rapport à un produit scalaire hermitienne sur ${\bar{L}}_{i}$ . On construit des structures complexes sur $S = S_{1} \times S_{2}$ dites de type scalaire, diagonal, ou linéaire. Bien que des structures de type scalaire existent toujours, on construit des structures plus générales de type diagonal mais non-scalaire dans le cas où les ${\bar{L}}_{i}$ sont des ${(ℂ^{*})}^{n_{i}}$ fibrés équivariants qui vérifient certaines hypothèses supplémentaires. Les structures complexes de type linéaire sont des variétés des drapeaux (généralisées) et les $L_{i}$ sont des fibrés en droites amples négatifs. Lorsque $H^{1} (X_{1}; ℝ) = 0$ et $c_{1} ({\bar{L}}_{1})$ est non-nulle la variété compacte $S$ n’admet pas de structure symplectique et donc elle est non-Kählerienne par rapport à toute structure complexe.

On montre que $H^{q} (S; 𝒪_{S})$ s’annule quand les $X_{i}$ sont des variétés projectives, les ${\bar{L}}_{i}^{\lor}$ son très amples et le cône sur $X_{i}$ par rapport au plongement projectif défini par ${\bar{L}}_{i}^{\lor}$ sont Cohen-Macaulay. On applique ces résultats au groupe de Picard de $S$ . Quand $X_{i} = G_{i} / P_{i}$ où $P_{i}$ sont les sousgroupes paraboliques maximaux et la variété $S$ est munie d’une structure complexe du type linéaire avec « la partie unipotente nulle » on montre que le corps des fonctions méromorphes sur $S$ est purement transcendental sur $ℂ$ .

Let ${\bar{L}}_{i} \to X_{i}$ be a holomorphic line bundle over a compact complex manifold for $i = 1, 2$ . Let $S_{i}$ denote the associated principal circle-bundle with respect to some hermitian inner product on ${\bar{L}}_{i}$ . We construct complex structures on $S = S_{1} \times S_{2}$ which we refer to as scalar, diagonal, and linear types. While scalar type structures always exist, the more general diagonal but non-scalar type structures are constructed assuming that ${\bar{L}}_{i}$ are equivariant ${(ℂ^{*})}^{n_{i}}$ -bundles satisfying some additional conditions. The linear type complex structures are constructed assuming $X_{i}$ are (generalized) flag varieties and ${\bar{L}}_{i}$ negative ample line bundles over $X_{i}$ . When $H^{1} (X_{1}; ℝ) = 0$ and $c_{1} ({\bar{L}}_{1}) \in H^{2} (X_{1}; ℂ)$ is non-zero, the compact manifold $S$ does not admit any symplectic structure and hence it is non-Kähler with respect to any complex structure.

We obtain a vanishing theorem for $H^{q} (S; 𝒪_{S})$ when $X_{i}$ are projective manifolds, ${\bar{L}}_{i}^{\lor}$ are very ample and the cone over $X_{i}$ with respect to the projective imbedding defined by ${\bar{L}}_{i}^{\lor}$ are Cohen-Macaulay. We obtain applications to the Picard group of $S$ . When $X_{i} = G_{i} / P_{i}$ where $P_{i}$ are maximal parabolic subgroups and $S$ is endowed with linear type complex structure with “vanishing unipotent part” we show that the field of meromorphic functions on $S$ is purely transcendental over $ℂ$ .

MR Zbl

DOI : 10.5802/aif.2805

Classification : 32L05, 32J18, 32Q55
Keywords: circle bundles, complex manifolds, homogeneous spaces, Picard groups, meromorphic function fields
Mot clés : fibré en cercles, variétés complexes, espaces homogénes, groupes de Picard, corpses des fonctions meromorphes

Affiliations des auteurs :

Sankaran, Parameswaran ¹ ; Thakur, Ajay Singh ²

¹ The Institute of Mathematical Sciences, CIT Campus, Taramani, Chennai 600113, India
² Indian Statistical Institute, 8th Mile, Mysore Road, RVCE Post Bangalore 560059, India

@article{AIF_2013__63_4_1331_0,
     author = {Sankaran, Parameswaran and Thakur, Ajay Singh},
     title = {Complex structures on product of circle bundles over complex manifolds},
     journal = {Annales de l'Institut Fourier},
     pages = {1331--1366},
     publisher = {Association des Annales de l{\textquoteright}institut Fourier},
     volume = {63},
     number = {4},
     year = {2013},
     doi = {10.5802/aif.2805},
     zbl = {06359591},
     mrnumber = {3137357},
     language = {en},
     url = {http://archive.numdam.org/articles/10.5802/aif.2805/}
}

TY  - JOUR
AU  - Sankaran, Parameswaran
AU  - Thakur, Ajay Singh
TI  - Complex structures on product of circle bundles over complex manifolds
JO  - Annales de l'Institut Fourier
PY  - 2013
SP  - 1331
EP  - 1366
VL  - 63
IS  - 4
PB  - Association des Annales de l’institut Fourier
UR  - http://archive.numdam.org/articles/10.5802/aif.2805/
DO  - 10.5802/aif.2805
LA  - en
ID  - AIF_2013__63_4_1331_0
ER  -

%0 Journal Article
%A Sankaran, Parameswaran
%A Thakur, Ajay Singh
%T Complex structures on product of circle bundles over complex manifolds
%J Annales de l'Institut Fourier
%D 2013
%P 1331-1366
%V 63
%N 4
%I Association des Annales de l’institut Fourier
%U http://archive.numdam.org/articles/10.5802/aif.2805/
%R 10.5802/aif.2805
%G en
%F AIF_2013__63_4_1331_0

Sankaran, Parameswaran; Thakur, Ajay Singh. Complex structures on product of circle bundles over complex manifolds. Annales de l'Institut Fourier, Tome 63 (2013) no. 4, pp. 1331-1366. doi : 10.5802/aif.2805. http://archive.numdam.org/articles/10.5802/aif.2805/

Bibliographie
Cité par

[1] Arnold, V. I. Ordinary differential equations, Second printing of the 1992 edition. Universitext, Springer-Verlag, Berlin, 2006 | MR | Zbl

[2] Bǎnicǎ, C.; Stǎnǎşilǎ, O. Algebraic methods in the global theory of of complex spaces, John Wiley, London, 1976 | MR | Zbl

[3] Borcea, C. Some remarks on deformations of Hopf manifolds, Rev. Roum. Math., Volume 26 (1981), pp. 1287-1294 | MR | Zbl

[4] Bosio, Frédéric Variétés complexes compactes: une généralisation de la construction de Meersseman et López de Medrano-Verjovsky, Ann. Inst. Fourier (Grenoble), Volume 51 (2001) no. 5, pp. 1259-1297 | DOI | Numdam | MR | Zbl

[5] Calabi, Eugenio; Eckmann, Beno A class of compact, complex manifolds which are not algebraic, Ann. of Math. (2), Volume 58 (1953), pp. 494-500 | DOI | MR | Zbl

[6] Cassa, Antonio Formule di Künneth per la coomologia a valori in an fascio, Annali della Scuola Normale Superiore di Pisa, Volume 27 (1973), pp. 905-931 | Numdam | MR | Zbl

[7] Douady, A. Séminaire H. Cartan, exp. 3 (1960/61)

[8] Haefliger, A. Deformations of transversely holomorphic flows on spheres and deformations of Hopf manifolds, Compositio Math., Volume 55 (1985), pp. 241-251 | Numdam | MR | Zbl

[9] Hopf, H. Zur Topologie der komplexen Mannigfaltigkeiten, Courant Anniversary Volume, New York, 1948 | MR | Zbl

[10] Humphreys, J. E. Linear algebraic groups, Graduate Texts in Math, Springer-Verlag, New York, 1975 | MR | Zbl

[11] Kodaira, K.; Spencer, D. C. On deformations of complex analytic structures. III. Stability theorems for complex structures, Ann. of Math., Volume 71 (1960), pp. 43-76 | DOI | MR | Zbl

[12] López de Medrano, Santiago; Verjovsky, Alberto A new family of complex, compact, non-symplectic manifolds, Bol. Soc. Brasil. Mat. (N.S.), Volume 28 (1997) no. 2, pp. 253-269 | DOI | MR | Zbl

[13] Lakshmibai, V; Seshadri, C. S. Singular locus of a Schubert variety, Bull. Amer. Math. Soc., Volume 11 (1984), pp. 363-366 | DOI | MR | Zbl

[14] Loeb, Jean Jacques; Nicolau, Marcel Holomorphic flows and complex structures on products of odd-dimensional spheres, Math. Ann., Volume 306 (1996) no. 4, pp. 781-817 | DOI | MR | Zbl

[15] Meersseman, Laurent A new geometric construction of compact complex manifolds in any dimension, Math. Ann., Volume 317 (2000) no. 1, pp. 79-115 | DOI | MR | Zbl

[16] Meersseman, Laurent; Verjovsky, Alberto Holomorphic principal bundles over projective toric varieties, J. Reine Angew. Math., Volume 572 (2004), pp. 57-96 | MR | Zbl

[17] Peternell, Th. Modifications, Several complex variables, VII (Encyclopaedia Math. Sci.), Volume 74, Springer, Berlin, 1994, pp. 285-317 | MR | Zbl

[18] Pietsch, Albrecht Nuclear locally convex spaces, Translated from the second German edition by William H. Ruckle. Ergebnisse der Mathematik und ihrer Grenzgebiete, Band, 66, Springer-Verlag, New York – Heidelberg, 1972 | MR | Zbl

[19] Ramanan, S.; Ramanathan, A. Projective normality of flag varieties and Schubert varieties, Invent. Math., Volume 79 (1985) no. 2, pp. 217-224 | DOI | MR | Zbl

[20] Ramanathan, A. Schubert varieties are arithmetically Cohen-Macaulay, Invent. Math., Volume 80 (1985) no. 2, pp. 283-294 | DOI | MR | Zbl

[21] Ramani, Vimala; Sankaran, Parameswaran Dolbeault cohomology of compact complex homogeneous manifolds, Proc. Indian Acad. Sci. Math. Sci., Volume 109 (1999) no. 1, pp. 11-21 | MR | Zbl

[22] Sankaran, Parameswaran A coincidence theorem for holomorphic maps to $G / P$ , Canad. Math. Bull., Volume 46 (2003) no. 2, pp. 291-298 | DOI | MR | Zbl

[23] Wang, Hsien-Chung Closed manifolds with homogeneous complex structure, Amer. J. Math., Volume 76 (1954), pp. 1-32 | DOI | MR | Zbl

Cité par Sources :