Balanced metrics on the Fock–Bargmann–Hartogs domains

Bi, Enchao; Feng, Zhiming; Tu, Zhenhan

doi:10.1007/s10455-016-9495-3

Cited by 21 publications

(19 citation statements)

References 25 publications

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“…For the case of non-compact manifolds, Loi-Mossa in [28] have shown that a bounded homogeneous domain admits a regular quantization. For the nonhomogeneous setting, we give the existence of regular quantizations on some Hartogs domains in [6] and [18].…”

Section: Introduction and Main Resultsmentioning

confidence: 99%

The regular quantizations of certain holomorphic bundles

Feng

2019

Ann Glob Anal Geom

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In this paper, we study the regular quantizations of Kähler manifolds by using the first two coefficients of Bergman function expansions. Firstly, we obtain sufficient and necessary conditions for certain Hermitian holomorphic vector bundles and their ball subbundles to be regular quantizations. Secondly, we obtain that some projective bundles over the Fano manifolds M admit regular quantizations if and only if M are biholomorphically isomorphism to the complex projective spaces. Finally, we obtain the balanced metrics on certain Hermitian holomorphic vector bundles and their ball subbundles over the Riemann sphere.

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Section: Introduction and Main Resultsmentioning

confidence: 99%

The regular quantizations of certain holomorphic bundles

Feng

2019

Ann Glob Anal Geom

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“…Finally, we describe what we need about the 1-parameter family of Fock-Bargmann-Hartogs domains, referring the reader to [1] and reference therein for details and further results. For any value of µ > 0, a Fock-Bargmann-Hartogs domain D n,m (µ) is a strongly pseudoconvex, nonhomogeneous unbounded domains in C n+m with smooth real-analytic boundary, given by:…”

Section: Notice That It Is An Open Question If the Same Statement Holmentioning

confidence: 99%

“…In [1], E. Bi, Z. Feng and Z. Tu prove that when n = 1 and ν = − 1 m+1 , the metric ω(µ; ν) is infinite projectively induced whenever it is rescaled by a big enough constant. More precisely they prove the following: Recall that a balanced Kähler metric is a particular projectively induced metric such that the immersion map is defined by a orthonormal basis of a weighted Hilbert space (see e.g.…”

Section: Notice That It Is An Open Question If the Same Statement Holmentioning

confidence: 99%

Strongly not relatives Kähler manifolds

Zedda

2017

Complex Manifolds

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Abstract:In this paper we study Kähler manifolds that are strongly not relative to any projective Kähler manifold, i.e. those Kähler manifolds that do not share a Kähler submanifold with any projective Kähler manifold even when their metric is rescaled by the multiplication by a positive constant. We prove two results which highlight some relations between this property and the existence of a full Kähler immersion into the infinite dimensional complex projective space. As application we get that the 1-parameter families of BergmanHartogs and Fock-Bargmann-Hartogs domains are strongly not relative to projective Kähler manifolds.

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“…11671306). c 2020 Australian Mathematical Publishing Association Inc. [2] L p regularity of the weighted Bergman projection 283…”

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confidence: 99%

“…Thus, A 2 (Ω, η) is a subspace of holomorphic functions in L 2 (Ω, η). From [18], if η is continuous and never vanishes inside Ω, then A p (Ω, η) is a closed subspace of L 2 (Ω, η) and there is an orthogonal projection, called the weighted Bergman projection,…”

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Regularity of the Weighted Bergman Projection on the Fock–bargmann–hartogs Domain

Tang

2020

Bull. Aust. Math. Soc.

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The Fock-Bargmann-Hartogs domain D n,m (µ) is defined bywhere µ > 0. The Fock-Bargmann-Hartogs domain D n,m (µ) is an unbounded strongly pseudoconvex domain with smooth real-analytic boundary. In this paper, we first compute the weighted Bergman kernel of D n,m (µ) with respect to the weight (−ρ) α , where ρ(z, w) := w 2 − e −µ z 2 is a defining function for D n,m (µ) and α > −1. Then, for p ∈ [1, ∞), we show that the corresponding weighted Bergman projection P Dn,m(µ),(−ρ) α is unbounded on L p (D n,m (µ), (−ρ) α ), except for the trivial case p = 2. In particular, this paper gives an example of an unbounded strongly pseudoconvex domain whose ordinary Bergman projection is L p irregular when p ∈ [1, ∞) \ {2}. This result turns out to be completely different from the well-known positive L p regularity result on bounded strongly pseudoconvex domain.

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Balanced metrics on the Fock–Bargmann–Hartogs domains

Cited by 21 publications

References 25 publications

The regular quantizations of certain holomorphic bundles

The regular quantizations of certain holomorphic bundles

Strongly not relatives Kähler manifolds

Regularity of the Weighted Bergman Projection on the Fock–bargmann–hartogs Domain

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