The Maximal Rank Conjecture for sections of curves

Larson, Eric

doi:10.1016/j.jalgebra.2020.03.006

Cited by 15 publications

(19 citation statements)

References 12 publications

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“…(3) For Theorem 1.6, it suffices to consider the cases where (d, g) is one of: (9, 5), (10,6), (11,7), (12,9), (16, 15), (17, 16), (18, 17).…”

Section: It Thus Remains To Showmentioning

confidence: 99%

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The generality of a section of a curve

Larson

2021

J. London Math. Soc.

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This paper considers the following fundamental problem about intersections in projective space: When is the intersection of a (varying) curve with a (fixed) hypersurface a general set of points on the hypersurface?For example, let Q ⊂ P 3 be a general quadric, C be a general curve of genus g, and f : C → P 3 be a general map of degree d. Then we show f (C) ∩ Q is a general set of 2d points on Q, except for exactly six cases. We prove a similar theorem for the intersection of a space curve with a plane, and for the intersection of a curve in P 4 with a hyperplane; besides the trivial cases of the intersection of a plane curve with a line or conic, these cases are the only ones for which such a theorem can hold.

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“…(3) For Theorem 1.6, it suffices to consider the cases where (d, g) is one of: (9, 5), (10,6), (11,7), (12,9), (16, 15), (17, 16), (18, 17).…”

Section: It Thus Remains To Showmentioning

confidence: 99%

“…Our three main theorems (five counting the first two cases which are trivial) give a complete description of this intersection in all of these cases. Both the results and the techniques developed here play a critical role in the author's proof of the Maximal Rank Conjecture [10], as explained in [11]. (5,2), (6,2), (6,4), (7,5), (8,6)}.…”

Section: Introductionmentioning

confidence: 99%

The generality of a section of a curve

Larson

2021

J. London Math. Soc.

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“…Proof In both cases, the multiplication map

μ_{L}

fails to be surjective and hence its dual

μ_{L}^{\lor}

fails to be injective. Case (1) follows from the classical Maximal Rank Conjecture, which is now a theorem of Eric Larson; see [20]. Larson's theorem implies that there exists a non‐zero extension

e

{prefixExt}^{1} false(L, ω_{C} \otimes L^{- 1} false)

with

u_{e} = 0

, in which case

dim ker false(u_{e} false) = h^{0} false(L false)

and hence

h^{0} false(E false) = k

.…”

Section: The Bertram–feinberg–mukai Conjecture and Its Connection With The Smrcmentioning

confidence: 99%

The Strong Maximal Rank conjecture and higher rank Brill–Noether theory

Cotterill

Gonzalo

Zhang

2021

J. London Math. Soc.

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In this paper, we compute the cohomology class of certain 'special maximal-rank loci' originally defined by Aprodu and Farkas. By showing that such classes are non-zero, we are able to verify the non-emptiness portion of the Strong Maximal Rank Conjecture in a wide range of cases. As an application, we obtain new evidence for the existence portion of a well-known conjecture due to Bertram, Feinberg and independently Mukai in higher rank Brill-Noether theory. Contents

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“…We prove that it has the expected number of moduli in the sense of Sernesi [30] (Proposition 3.1). We also prove some statements on the intersection of some elements of A(d, g; n) with a hyperplane (in the spirit of [2,4,8,10,23,26]) (see section 4). The last 5 sections are devoted to the proof of Theorem 1.1, the last one containing the numerical lemmas used in the proof.…”

Section: Introductionmentioning

confidence: 97%

Good components of curves in projective spaces outside the Brill–Noether range

Ballico¹

2021

Turk J Math

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The Maximal Rank Conjecture for sections of curves

Cited by 15 publications

References 12 publications

The generality of a section of a curve

The generality of a section of a curve

The Strong Maximal Rank conjecture and higher rank Brill–Noether theory

Good components of curves in projective spaces outside the Brill–Noether range

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