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484 results on '"Halbeisen, Lorenz"'

1. Pairing Powers of Pythagorean Pairs

Author

Halbeisen, Lorenz, Hungerbühler, Norbert, and Zargar, Arman Shamsi

Subjects
Mathematics - Number Theory, 11D72, 11G05
Abstract

A pair $(a, b)$ of positive integers is a pythagorean pair if $a^2 + b^2$ is a square. A pythagorean pair $(a, b)$ is called a pythapotent pair of degree $h$ if there is another pythagorean pair $(k,l)$, which is not a multiple of $(a,b)$, such that $(a^hk, b^hl)$ is a pythagorean pair. To each pythagorean pair $(a, b)$ we assign an elliptic curve $\Gamma_{a^h ,b^h}$ for $h\ge 3$ with torsion group isomorphic to $\mathbb Z/2\mathbb Z \times \mathbb Z/4\mathbb Z$ such that $\Gamma_{a^h,b^h}$ has positive rank over $\mathbb Q$ if and only if $(a,b)$ is a pythapotent pair of degree $h$. As a side result, we get that if $(a, b)$ is a pythapotent pair of degree $h$, then there exist infinitely many pythagorean pairs $(k,l)$, not multiples of each other, such that $(a^hk,b^hl)$ is a pythagorean pair. In particular, we show that any pythagorean pair is always a pythapotent pair of degree 3. In a previous work, pythapotent pairs of degrees 1 and 2 have been studied., Comment: 11 pages. arXiv admin note: text overlap with arXiv:2101.08163

Published
2024

3. Properties of Hesse derivatives of cubic curves

Author

Dutta, Sayan, Halbeisen, Lorenz, and Hungerbühler, Norbert

Subjects
Mathematics - Algebraic Geometry, 11G05, 37N99
Abstract

The Hesse curve or Hesse derivative Hess$(\Gamma_f)$ of a cubic curve $\Gamma_{f}$ given by a homogeneous polynomial $f$ is the set of points $P$ such that $\det \left(H_f (P)\right)=0$, where $H_f (P)$ is the Hesse matrix of $f$ evaluated at $P$. Also Hess$(\Gamma_f)$ is again a cubic curve. We show that for a point $P\in$Hess$(\Gamma_{f})$, all the contact points of tangents from $P$ to the curves $\Gamma_{f}$ and Hess$(\Gamma_{f})$ are intersection points of two straight lines $\ell_1^P$ and $\ell_2^P$ (meeting on Hess$(\Gamma_{f})$) with $\Gamma_{f}$ and Hess$(\Gamma_{f})$, where the product of $\ell_1^P$ and $\ell_2^P$ is the polar conic of $\Gamma_{f}$ at $P$. The operator Hess defines an iterative discrete dynamical system on the set of the cubic curves. We identify the two fixed points of this system, investigate orbits that end in the fixed points, and discuss the closed orbits of the dynamical system., Comment: 14 pages, 3 figures

Published
2023

5. Implications of Ramsey Choice Principles in ZF

Author

Halbeisen, Lorenz, Plati, Riccardo, and Shelah, Saharon

Subjects
Mathematics - Logic, 03E35 03E25
Abstract

The Ramsey Choice principle for families of $n$-element sets, denoted $\mathrm{RC}_n$, states that every infinite set $X$ has an infinite subset $Y\subseteq X$ with a choice function on $[Y]^n := \{z\subseteq Y : |z| = n\}$. We investigate for which positive integers $m$ and $n$ the implication $\mathrm{RC}_m \Rightarrow \mathrm{RC}_n$ is provable in ZF. It will turn out that beside the trivial implications $\mathrm{RC}_m \Rightarrow \mathrm{RC}_m$, under the assumption that every odd integer $n>5$ is the sum of three primes (known as ternary Goldbach conjecture), the only non-trivial implication which is provable in ZF is $\mathrm{RC}_2 \Rightarrow \mathrm{RC}_4$., Comment: 9 pages. arXiv admin note: text overlap with arXiv:2101.07840

Published
2023

6. Halving formulae for points on elliptic curves

Author

Halbeisen, Lorenz and Hungerbuehler, Norbert

Subjects
Mathematics - Number Theory, Mathematics - Algebraic Geometry, 11G05 94A60 11R16
Abstract

Let $P$ be an arbitrary point on an elliptic curve over the complex numbers of the form $y^2=x^3+a_4\,x+a_6$ or of the form $y^2=x^3+a_2\,x^2+a_4\,x$. We provide explicit formulae to compute the points $P/2$, i.e., the points $Q$ such that $2*Q=P$., Comment: 6 pages

Published
2023

7. Four Cardinals and Their Relations in ZF

Author

Halbeisen, Lorenz, Plati, Riccardo, Schumacher, Salome, and Shelah, Saharon

Subjects
Mathematics - Logic, {\bf 03E35}, 03E10, 03E25
Abstract

For a set $M$, $\operatorname{fin}(M)$ denotes the set of all finite subsets of $M$, $M^2$ denotes the Cartesian product $M\times M$, $[M]^2$ denotes the set of all $2$-element subsets of $M$, and $\operatorname{seq}^{1-1}(M)$ denotes the set of all finite sequences without repetition which can be formed with elements of $M$. Furthermore, for a set $S$, let $|S|$ denote the cardinality of $S$. Under the assumption that the four cardinalities $|[M]^2|$, $|M^2|$, $|\operatorname{fin}(M)|$, $|\operatorname{seq}^{1-1}(M)|$ are pairwise distinct and pairwise comparable in ZF, there are six possible linear orderings between these four cardinalities. We show that at least five of the six possible linear orderings are consistent with ZF., Comment: 19 pages, 1 figure

Published
2021
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25. Reversion Porisms in Conics

Author

Halbeisen, Lorenz, Hungerbühler, Norbert, and Schiltknecht, Marco

Subjects
Mathematics - Algebraic Geometry, 51M15
Abstract

We give a projective proof of the butterfly porism for cyclic quadrilaterals and present a general reversion porism for polygons with an arbitrary number of vertices on a conic. We also investigate projective properties of the porisms., Comment: 12 figures

Published
2021

26. Constructing Cubic Curves with Involutions

Author

Halbeisen, Lorenz and Hungerbühler, Norbert

Subjects
Mathematics - History and Overview, Mathematics - Algebraic Geometry, 51A05, 51A20
Abstract

In 1888, Heinrich Schroeter provided a ruler construction for points on cubic curves based on line involutions. Using Chasles' Theorem and the terminology of elliptic curves, we give a simple proof of Schroeter's construction. In addition, we show how to construct tangents and additional points on the curve using another ruler construction which is also based on line involutions., Comment: 14 pages, 8 figures

Published
2021

27. A geometric approach to elliptic curves with torsion groups $\mathbb{Z}/10\mathbb{Z}$, $\mathbb{Z}/12\mathbb{Z}$, $\mathbb{Z}/14\mathbb{Z}$, and $\mathbb{Z}/16\mathbb{Z}$

Author

Halbeisen, Lorenz, Hungerbuehler, Norbert, Voznyy, Maksym, and Zargar, Arman Shamsi

Subjects
Mathematics - Number Theory
Abstract

We give new parametrisations of elliptic curves in Weierstrass normal form $y^2=x^3+ax^2+bx$ with torsion groups $\mathbb{Z}/10\mathbb{Z}$ and $\mathbb{Z}/12\mathbb{Z}$ over $\mathbb{Q}$, and with $\mathbb{Z}/14\mathbb{Z}$ and $\mathbb{Z}/16\mathbb{Z}$ over quadratic fields. Even though the parametrisations are equivalent to those given by Kubert and Rabarison, respectively, with the new parametrisations we found three infinite families of elliptic curves with torsion group $\mathbb{Z}/12\mathbb{Z}$ and positive rank. Furthermore, we found elliptic curves with torsion group $\mathbb{Z}/14\mathbb{Z}$ and rank $3$, which is a new record for such curves, as well as some new elliptic curves with torsion group $\mathbb{Z}/16\mathbb{Z}$ and rank $3$., Comment: 21 pages, 1 figure

Published
2021

28. Pairing Pythagorean Pairs

Author

Halbeisen, Lorenz and Hungerbühler, Norbert

Subjects
Mathematics - Number Theory, 11D72
Abstract

A pair $(a, b)$ of positive integers is a pythagorean pair if $a^2 + b^2 = \Box$ (i.e., $a^2 + b^2$ is a square). A pythagorean pair $(a, b)$ is called a double-pythapotent pair if there is another pythagorean pair $(k,l)$ such that $(ak,bl)$ is a pythagorean pair, and it is called a quadratic pythapotent pair if there is another pythagorean pair $(k,l)$ which is not a multiple of $(a,b)$, such that $(a^2k,b^2l)$ is a pythagorean pair. To each pythagorean pair $(a, b)$ we assign an elliptic curve $\Gamma_{a,b}$ with torsion group $\mathbb Z/2\mathbb Z\times\mathbb Z/4\mathbb Z$, such that $\Gamma_{a,b}$ has positive rank if and only if $(a, b)$ is a double-pythapotent pair. Similarly, to each pythagorean pair $(a, b)$ we assign an elliptic curve $\Gamma_{a^2 ,b^2}$ with torsion group $\mathbb Z/2\mathbb Z\times\mathbb Z/8\mathbb Z$, such that $\Gamma_{a^2,b^2}$ has positive rank if and only if $(a,b)$ is a quadratic pythapotent pair. Moreover, in the later case we obtain that every elliptic curve $\Gamma$ with torsion group $\mathbb Z/2\mathbb Z\times\mathbb Z/8\mathbb Z$ is isomorphic to a curve of the form $\Gamma_{a^2 ,b^2}$ , where $(a,b)$ is a pythagorean pair. As a side-result we get that if $(a,b)$ is a double-pythapotent pair, then there are infinitely many pythagorean pairs $(k, l)$, not multiples of each other, such that $(ak, bl)$ is a pythagorean pair; the analogous result holds for quadratic pythapotent pairs., Comment: 11 pages

Published
2021

29. A New Weak Choice Principle

Author

Halbeisen, Lorenz, Plati, Riccardo, and Schumacher, Salome

Subjects
Mathematics - Logic
Abstract

For every natural number $n$ we introduce a new weak choice principle $\mathrm{nRC_{fin}}$: Given any infinite set $x$, there is an infinite subset $y\subseteq x$ and a selection function $f$ that chooses an $n$-element subset from every finite $z\subseteq y$ containing at least $n$ elements. By constructing new permutation models built on a set of atoms obtained as Fra\"iss\'e limits, we will study the relation of $\mathrm{nRC_{fin}}$ to the weak choice principles $\mathrm{RC_m}$ (that has already been studied by Montenegro, Halbeisen and Tachtsis): Given any infinite set $x$, there is an infinite subset $y\subseteq x$ with a choice function $f$ on the family of all $m$-element subsets of $y$. Moreover, we prove a stronger analogue of Montenegros results when we study the relation between $\mathrm{nRC_{fin}}$ and $\mathrm{kC_{fin}^-}$ which is defined by: Given any infinite family $\mathcal{F}$ of finite sets of cardinality greater than $k$, there is an infinite subfamily $\mathcal{A}\subseteq \mathcal{F}$ with a selection function $f$ that chooses a $k$-element subset from each $A\in\mathcal{A}$.

Published
2021

30. Some implications of Ramsey Choice for n-element sets

Author

Halbeisen, Lorenz and Schumacher, Salome

Subjects
Mathematics - Logic
Abstract

Let $n\in\omega$. The weak choice principle $\operatorname{RC}_n$ states that for every infinite set $x$ there is an infinite subset $y\subseteq x$ with a choice function on $[y]^n:=\{z\subseteq y\mid \lvert z\rvert =n\}$. $\operatorname{C}_n^-$ states that for every infinite family of $n$-element sets, there is an infinite subfamily $\mathcal{G}\subseteq\mathcal{F}$ with a choice function. $\operatorname{LOC}_n^-$ and $\operatorname{WOC}_n^-$ are the same statement but we assume that the family $\mathcal{F}$ is linearly orderable ($\operatorname{LOC}_n^-$) or well-orderable ($\operatorname{WOC}_n^-$). In the first part of this paper we will give a full characterization of when the implication $\operatorname{RC}_m\Rightarrow \operatorname{WOC}_n^-$ with $m,n\in\omega$ holds in $\operatorname{ZF}$. We will prove the independence results by using suitable Fraenkel-Mostowski permutation models. In the second part of we will show some generalizations. In particular we will show that $\operatorname{RC}_5\Rightarrow \operatorname{LOC}_5^-$ and $\operatorname{RC}_6\Rightarrow \operatorname{C}_3^-$, answering two open questions from Halbeisen and Tachtsis. Furthermore we will show that $\operatorname{RC}_6\Rightarrow \operatorname{C}_9^-$ and $\operatorname{RC}_7\Rightarrow \operatorname{LOC}_7^-$.

Published
2021

36. Congruent number elliptic curves with rank at least two

Author

Halbeisen, Lorenz and Hungerbühler, Norbert

Subjects
Mathematics - Number Theory, 11G05, 11D09
Abstract

We give an infinite family of congruent number elliptic curves, each with rank at least two, which are related to integral solutions of $m^2=n^2+nl+l^2$., Comment: 9 pages, 1 figure. A curve of rank 5 is added in this version (first entry on the list on page 8). arXiv admin note: text overlap with arXiv:1803.09604

Published
2018

37. Halfway New Cardinal Characteristics

Author

Brendle, Jörg, Halbeisen, Lorenz J., Klausner, Lukas Daniel, Lischka, Marc, and Shelah, Saharon

Subjects
Mathematics - Logic, 03E17 (Primary) 03E35, 03E40 (Secondary)
Abstract

Based on the well-known cardinal characteristics $\mathfrak{s}$, $\mathfrak{r}$ and $\mathfrak{i}$, we introduce nine related cardinal characteristics by using the notion of asymptotic density to characterise different intersection properties of infinite sets. We prove several bounds and consistency results, e. g. the consistency of $\mathfrak{s} < \mathfrak{s}_{1/2}$, as well as several results about possible values of $\mathfrak{i}_{1/2}$., Comment: 37 pages, 2 figures

Published
2018
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38. A Theorem of Fermat on Congruent Number Curves

Author

Halbeisen, Lorenz and Hungerbühler, Norbert

Subjects
Mathematics - Number Theory, 11G05, 11D25
Abstract

A positive integer $A$ is called a congruent number if $A$ is the area of a right-angled triangle with three rational sides. Equivalently, $A$ is a congruent number if and only if the congruent number curve $y^2=x^3-A^2x$ has a rational point $(x,y)\in\mathbb Q^2$ with $y\neq 0$. Using a theorem of Fermat, we give an elementary proof for the fact that congruent number curves do not contain rational points of finite order., Comment: 8 pages, one figure

Published
2018

42. Kleinodien

Author

Halbeisen, Lorenz, Hungerbühler, Norbert, Läuchli, Juan, Halbeisen, Lorenz, Hungerbühler, Norbert, and Läuchli, Juan

Published
2021
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43. Inversion am Kreis

Author

Halbeisen, Lorenz, Hungerbühler, Norbert, Läuchli, Juan, Halbeisen, Lorenz, Hungerbühler, Norbert, and Läuchli, Juan

Published
2021
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46. Peripheriewinkelsatz

Author

Halbeisen, Lorenz, Hungerbühler, Norbert, Läuchli, Juan, Halbeisen, Lorenz, Hungerbühler, Norbert, and Läuchli, Juan

Published
2021
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