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We give an arithmetic count of the lines on a smooth cubic surface over an arbitrary field $k$, generalizing the counts that over $\mathbb{C}$ there are $27$ lines, and over $\mathbb{R}$ the number of hyperbolic lines minus the number of…

Algebraic Geometry · Mathematics 2021-07-01 Jesse Leo Kass , Kirsten Wickelgren

Let k be a field of characteristic other than 2,3. We prove that there are no geometrically smooth quartic surfaces in IP^3 with more than 64 lines. As a key step, we derive the sharp bound that any line meets at most 20 other lines on a…

Algebraic Geometry · Mathematics 2016-11-14 Slawomir Rams , Matthias Schuett

We show the existence of 112 non-singular rational curves on the supersingular K3 surface with Artin invariant 1 in characteristic 3 by several ways. Using these rational curves, we have a $(16)_{10}$-configuration and a $(280_{4},…

Algebraic Geometry · Mathematics 2011-07-11 Toshiyuki Katsura , Shigeyuki Kondo

Let $L$ be a set of $n$ lines in the plane, not necessarily in general position. We present an efficient algorithm for finding all the vertices of the arrangement $A(L)$ of maximum level, where the level of a vertex $v$ is the number of…

Computational Geometry · Computer Science 2020-03-03 Dan Halperin , Sariel Har-Peled , Kurt Mehlhorn , Eunjin Oh , Micha Sharir

We study the realization spaces of $10_3$ line configurations. Answering a question posed by Sturmfels in 1991, we use elliptic surface techniques to show that realizations over $\mathbb{Q}$ are dense in those over $\mathbb{R}$ for all…

Algebraic Geometry · Mathematics 2025-03-05 Elias Sink

We construct a K3 surface over an algebraically closed field of characteristic 2 which contains two sets of 21 disjoint smooth rational curves such that each curve from one set intersects exactly 5 curves from the other set. This…

Algebraic Geometry · Mathematics 2007-05-23 I. Dolgachev , S. Kondo

We show that the classical Fermat quartic has exactly three smooth spatial models. As a generalization, we give a classification of smooth spatial (as well as some other) models of singular $K3$-surfaces of small discriminant. As a…

Algebraic Geometry · Mathematics 2019-09-13 Alex Degtyarev

To each nodal hypersurface one can associate a binary linear code. Here we show that the binary linear code associated to sextics in $\mathbb{P}^3$ with the maximum number of $65$ nodes, as e.g. the Barth sextic, is unique. We also state…

Combinatorics · Mathematics 2025-05-26 Sascha Kurz

We study complex algebraic K3 surfaces with finite automorphism groups and polarized by rank-fourteen, 2-elementary lattices. Three such lattices exist, namely $H \oplus E_8(-1) \oplus A_1(-1)^{\oplus 4}$, $H \oplus E_8(-1) \oplus D_4(-1)$,…

Algebraic Geometry · Mathematics 2025-05-20 Adrian Clingher , Andreas Malmendier

We derive a formula expressing the average number $E_n$ of real lines on a random hypersurface of degree $2n-3$ in $\mathbb{R}\textrm{P}^n$ in terms of the expected modulus of the determinant of a special random matrix. In the case $n=3$ we…

Algebraic Geometry · Mathematics 2016-11-09 Saugata Basu , Antonio Lerario , Erik Lundberg , Chris Peterson

Let $k$ be either a number a field or a function field over $\mathbb{Q}$ with finitely many variables. We present a practical algorithm to compute the geometric Picard lattice of a K3 surface over $k$ of degree $2$, i.e., a double cover of…

Algebraic Geometry · Mathematics 2018-10-09 Dino Festi

Let ${\cal L}$ be an arrangement of $n$ lines in the Euclidean plane. The \emph{$k$-level} of ${\cal L}$ consists of all vertices $v$ of the arrangement which have exactly $k$ lines of ${\cal L}$ passing below $v$. The complexity (the…

Computational Geometry · Computer Science 2020-03-10 Man-Kwun Chiu , Stefan Felsner , Manfred Scheucher , Patrick Schnider , Raphael Steiner , Pavel Valtr

Using toric geometry, lattice theory, and elliptic surface techniques, we compute the Picard Lattice of certain K3 surfaces. In particular, we examine the generic member of each of M. Reid's list of 95 families of Gorenstein K3 surfaces…

Algebraic Geometry · Mathematics 2007-05-23 Sarah-Marie Belcastro

Motivated by a problem originating in string theory, we study elliptic fibrations on K3 surfaces with large Picard number modulo isomorphism. We give methods to determine upper bounds for the number of inequivalent K3 surfaces sharing the…

Algebraic Geometry · Mathematics 2013-12-17 Andreas P. Braun , Yusuke Kimura , Taizan Watari

We prove that a smooth projective surface of degree $d$ in $\mathbb P^3$ contains at most $d^2(d^2-3d+3)$ lines. We characterize the surfaces containing exactly $d^2(d^2-3d+3)$ lines: these occur only in prime characterize $p$ and, up to…

Algebraic Geometry · Mathematics 2024-06-26 Janet Page , Tim Ryan , Karen E. Smith

We study K3 surfaces of degree 6 containing two sets of 12 skew lines such that each line from a set intersects exactly six lines from the other set. These surfaces arise as hyperplane sections of the cubic line complex associated with the…

Algebraic Geometry · Mathematics 2025-06-24 Alex Degtyarev , Igor Dolgachev , Shigeyuki Kondo

We give a defining equation of a complex smooth quartic surface containing 56 lines, and investigate its reductions to positive characteristics. This surface is isomorphic to the complex Fermat quartic surface, which contains only 48 lines.…

Algebraic Geometry · Mathematics 2016-09-06 Ichiro Shimada , Tetsuji Shioda

Jordan showed that the incidence variety of a smooth cubic surface containing 27 lines has solvable Galois group over the incidence variety of a smooth cubic surface containing 3 skew lines. As noted by Harris, it follows that for any…

Algebraic Geometry · Mathematics 2022-09-01 Stephen McKean , Daniel Minahan , Tianyi Zhang

Over a field k of characteristic 3, we prove that there are no smooth quartic surfaces S in IP^3 with more than 112 lines. Moreover, the surface with 112 lines is projectively equivalent over k-bar to the Fermat quartic. As a key…

Algebraic Geometry · Mathematics 2016-11-14 Slawomir Rams , Matthias Schuett

We test R. van Luijk's method for computing the Picard group of a $K3$ surface. The examples considered are the resolutions of Kummer quartics in $\bP^3$. Using the theory of abelian varieties, in this case, the Picard group may be computed…

Algebraic Geometry · Mathematics 2019-02-20 Andreas-Stephan Elsenhans , Jörg Jahnel