Nonarchimedean geometry, tropicalization, and metrics on curves

Baker, Matthew; Payne, Sam; Rabinoff, Joseph

doi:10.14231/ag-2016-004

Cited by 107 publications

(240 citation statements)

References 32 publications

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“…This method to compute tropicalizations is due to [BPR13,BPR16] and we will refer to these papers for details of the following construction. Skeleta are discussed in [BPR13] and we refer to [BPR13, Corollary 4.23] for existence and uniqueness of the minimal skeleton S(W ) of the smooth curve W .…”

Section: 17])mentioning

confidence: 99%

A tropical approach to nonarchimedean Arakelov geometry

Gubler

Kuennemann

2017

Alg. Number Th.

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Abstract. Chambert-Loir and Ducros have recently introduced a theory of real valued differential forms and currents on Berkovich spaces. In analogy to the theory of forms with logarithmic singularities, we enlarge the space of differential forms by so called δ-forms on the non-archimedean analytification of an algebraic variety. This extension is based on an intersection theory for tropical cycles with smooth weights. We prove a generalization of the Poincaré-Lelong formula which allows us to represent the first Chern current of a formally metrized line bundle by a δ-form. We introduce the associated Monge-Ampère measure µ as a wedge-power of this first Chern δ-form and we show that µ is equal to the corresponding Chambert-Loir measure. The * -product of Green currents is a crucial ingredient in the construction of the arithmetic intersection product. Using the formalism of δ-forms, we obtain a non-archimedean analogue at least in the case of divisors. We use it to compute non-archimedean local heights of proper varieties.

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Section: 17])mentioning

confidence: 99%

A tropical approach to nonarchimedean Arakelov geometry

Gubler

Kuennemann

2017

Alg. Number Th.

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“…The genus g = g(C) is the number of interior lattice points of P. Each bounded edge of C has a well-defined lattice length. The curve C contains a subdivision of a metric graph of genus g with vertices of valency ≥ 3 as in [5], and this subdivision is unique for g ≥ 2. The underlying graph G is planar and has g distinguished cycles, one for each interior lattice point of P. We call G the skeleton of C. It is the smallest subspace of C to which C admits a deformation retract.…”

Section: Introductionmentioning

confidence: 99%

Moduli of tropical plane curves

Brodsky

Joswig

Morrison

et al. 2015

Mathematical Sciences

107

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We study the moduli space of metric graphs that arise from tropical plane curves. There are far fewer such graphs than tropicalizations of classical plane curves. For fixed genus g, our moduli space is a stacky fan whose cones are indexed by regular unimodular triangulations of Newton polygons with g interior lattice points. It has dimension 2g + 1 unless g ≤ 3 or g = 7. We compute these spaces explicitly for g ≤ 5.

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“…Tropicalizations of more general toric varieties were studied implicitly by Thuillier, as skeletons of analytifications [Thu07], and explicitly by Kajiwara [Kaj08], before being applied to the development of explicit relations between tropical and nonarchimedean analytic geometry in [Pay09a,BPR11,Rab12], to which we refer the reader for further details. The tropicalization of the affine toric variety U σ is the space of monoid homomorphisms…”

Section: Preliminariesmentioning

confidence: 99%

Limits of tropicalizations

Foster

Gross²,

Payne

2014

Isr. J. Math.

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Abstract. We give general criteria under which the limit of a system of tropicalizations of a scheme over a nonarchimedean field is homeomorphic to the analytification of the scheme. As an application, we show that the analytification of an arbitrary closed subscheme of a toric variety is naturally homeomorphic to the limit of its tropicalizations, generalizing an earlier result of the third author for quasiprojective varieties.

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Nonarchimedean geometry, tropicalization, and metrics on curves

Cited by 107 publications

References 32 publications

A tropical approach to nonarchimedean Arakelov geometry

A tropical approach to nonarchimedean Arakelov geometry

Moduli of tropical plane curves

Limits of tropicalizations

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