Massey Products and Fujita decompositions on fibrations of curves

Pirola, Gian Pietro; Torelli, Sara

doi:10.1007/s13348-019-00247-4

Cited by 16 publications

(26 citation statements)

References 35 publications

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“…The proof of the first inequality (1.4) follows the lines of the original argument of [BGAN15], but in this more general setting new results are needed. The key points of our arguments are the deformation thecnhniques developed by the first author in [GA16] and by the third author and Pirola in [PT17], together with an ad-hoc Castelnuovo-de Franchis theorem for tubular surfaces.…”

Section: Motivation and Statement Of The Resultsmentioning

confidence: 99%

“…The main difference between the present case and [BGAN15] stems from the fact that sections of U do not correspond to global differential 1-forms on S, while sections of the trivial part do. Instead, after the recent work of Pirola and Torelli [PT17], local flat sections of U can be identified with closed holomorphic 1-forms on "tubes" f −1 (∆) ⊂ S around smooth fibres (see Lemma 2.4). This local liftability of sections of U is enough to deal with the movable case.…”

Section: Motivation and Statement Of The Resultsmentioning

confidence: 99%

“…Lemma 2.4 (Lifting Lemma in [PT17]). Let f : S → B be a semistable fibration, U the local system associated to the flat unitary summand, and Ω 1 S,d the sheaf of closed holomorphic 1-forms.…”

Section: Flat Sections Of F * ω F and 1-forms On Smentioning

confidence: 99%

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On the rank of the flat unitary summand of the Hodge bundle

González-Alonso

Stoppino

Torelli

2019

Trans. Amer. Math. Soc.

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Let f : S → B f\colon S\to B be a nonisotrivial fibered surface. We prove that the genus g g , the rank u f u_f of the unitary summand of the Hodge bundle f ∗ ω f f_*\omega _f , and the Clifford index c f c_f satisfy the inequality u f ≤ g − c f u_f \leq g - c_f . Moreover, we prove that if the general fiber is a plane curve of degree ≥ 5 \geq 5 , then the stronger bound u f ≤ g − c f − 1 u_f \leq g - c_f-1 holds. In particular, this provides a strengthening of bounds proved by M. A. Barja, V. González-Alonso, and J. C. Naranjo and by F. F. Favale, J. C. Naranjo, and G. P. Pirola. The strongholds of our arguments are the deformation techniques developed by the first author and by the third author and G. P. Pirola, which display here naturally their power and depth.

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Section: Motivation and Statement Of The Resultsmentioning

confidence: 99%

Section: Motivation and Statement Of The Resultsmentioning

confidence: 99%

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On the rank of the flat unitary summand of the Hodge bundle

González-Alonso

Stoppino

Torelli

2019

Trans. Amer. Math. Soc.

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“…(2) The argument follows the line of [15, section 3.1, case 1] (see also [21,Lemma 3.2]). Assume that rank U 2, otherwise there is nothing to prove.…”

Section: The Case Of Rigid Supporting Divisorsmentioning

confidence: 85%

“…Indeed, in the recent work [15] an upper bound for the rank of

scriptU

is obtained, depending on geometric invariants of the fibers like their genus and the general Clifford index, generalizing a previous result of [1] on the relative irregularity. A closer look at the proof of that result shows that in some cases the inequality

rk U ⩽ \frac{g + 1}{2}

can be proved using Massey products of sections of

scriptU

[14, 21] combined with Castelnuovo–de Franchis fibration type theorems. Similar constructions are used in [18] to study hyperelliptic fibrations.…”

Section: Introduction and Notationsmentioning

confidence: 99%

Families of curves with Higgs field of arbitrarily large kernel

González-Alonso

Torelli

2020

Bull. London Math. Soc.

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In this article, we consider the flat bundle U and the kernel K of the Higgs field naturally associated to any (polarized) variation of Hodge structures of weight 1. We study how strict the inclusion U ⊆ K can be in the geometric case. More precisely, for any smooth projective curve C of genus g 2 and any r = 0,. .. , g − 1, we construct non-isotrivial deformations of C over a quasi-projective base such that rk K = r and rk U g+1 2. g+1 2 .

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Fujita decomposition on families of abelian varieties

Pirola

2021

Boll Unione Mat Ital

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Let $$F:{\mathcal {V}}\rightarrow B$$ F : V → B be a smooth non-isotrivial $$1-$$ 1 - dimensional family of complex polarized abelian varieties and $$V_b=F^{-1}(b)$$ V b = F - 1 ( b ) be the general fiber. Let $${\mathcal {F}}^1\subset R^1F_*{\mathbb {C}}$$ F 1 ⊂ R 1 F ∗ C be the associated Hodge bundle filtration, $${\mathcal {F}}^1_b=H^{1.0}(V_b).$$ F b 1 = H 1.0 ( V b ) . Under the assumption that the Fujita decomposition for $${\mathcal {F}}^1$$ F 1 is non trivial, that is there is a non trivial flat sub-bundle $$0\ne {\mathbb {U}}\subset {\mathcal {F}}^1,$$ 0 ≠ U ⊂ F 1 , we show that $$V_b$$ V b has non-trivial endomorphism: $$End(V_b)\ne {\mathbb {Z}}.$$ E n d ( V b ) ≠ Z .

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Massey Products and Fujita decompositions on fibrations of curves

Cited by 16 publications

References 35 publications

On the rank of the flat unitary summand of the Hodge bundle

On the rank of the flat unitary summand of the Hodge bundle

Families of curves with Higgs field of arbitrarily large kernel

Fujita decomposition on families of abelian varieties

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