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Lenstra introduced the notion of a Euclidean ideal class, which is a generalization of the Euclidean domain. Lenstra also proved that the Euclidean ideal in a number field $K$ implies that the class group of $K$ is cyclic. We construct a…

Number Theory · Mathematics 2022-11-24 Srilakshmi Krishnamoorthy , Sunil Kumar Pasupulati

H. W. Lenstra \cite{lenstra} introduced the notion of an Euclidean ideal class, which is a generalization of norm-Euclidean ideals in number fields. Later, families of number fields of small degree were obtained with an Euclidean ideal…

Number Theory · Mathematics 2018-09-21 Jaitra Chattopadhyay , Subramani Muthukrishnan

We study Euclidean ideal classes in real biquadratic fields and obtain unconditional existence results via genus theory. Lenstra showed (assuming the Generalized Riemann Hypothesis) that a number field with unit rank at least one admits a…

Number Theory · Mathematics 2025-12-19 Sunil Kumar Pasupulati

Lenstra's concept of Euclidean ideals generalizes the Euclidean algorithm; a domain with a Euclidean ideal has cyclic class group, while a domain with a Euclidean algorithm has trivial class group. This paper generalizes Harper's variation…

Number Theory · Mathematics 2010-08-17 Hester Graves

Weinberger in 1972, proved that the ring of integers of a number field with unit rank at least $1$ is a principal ideal domain if and only if it is a Euclidean domain, provided the generalised Riemann hypothesis holds. Lenstra extended the…

Number Theory · Mathematics 2022-09-13 V. Kumar Murty , J. Sivaraman

This paper introduces two classes of totally real quartic number fields, one of biquadratic extensions and one of cyclic extensions, each of which has a non-principal Euclidean ideal. It generalizes techniques of Graves used to prove that…

Number Theory · Mathematics 2017-06-20 Catherine Hsu

We construct a family of ideals representing ideal classes of order 2 in quadratic number fields and show that relations between their ideal classes are governed by certain cyclic quartic extensions of the rationals.

Number Theory · Mathematics 2011-09-01 Franz Lemmermeyer

We classify all quadratic imaginary number fields that have a Euclidean ideal class. There are seven of them, they are of class number at most two, and in each case the unique class that generates the class-group is moreover norm-Euclidean.

Number Theory · Mathematics 2009-09-15 Hester Graves , Nick Ramsey

The P\'{o}lya group of an algebraic number field is the subgroup generated by the ideal classes of the products of prime ideals of equal norm inside the ideal class group. Inspired by a recent work on consecutive quadratic fields with large…

Number Theory · Mathematics 2023-12-06 Md. Imdadul Islam , Jaitra Chattopadhyay , Debopam Chakraborty

In this paper, based on the theory of genus fields of biquadartic fields, we find a new larger family of biquadratic fields having a non-principal Euclidean ideal class, which implies the main results of \cite{JNT}.

Number Theory · Mathematics 2019-10-16 Su Hu , Yan Li

In this paper, we use the theory of genus fields to study the Euclidean ideals of certain real biquadratic fields $K.$ Comparing with the previous works, our methods yield a new larger family of real biquadratic fields $K$ having Euclidean…

Number Theory · Mathematics 2019-10-15 Su Hu , Yan Li

For any integer $k\ge 1$, we show that there are infinitely many complex quadratic fields whose 2-class groups are cyclic of order $2^k$. The proof combines the circle method with an algebraic criterion for a complex quadratic ideal class…

Number Theory · Mathematics 2012-11-13 Carlos Dominguez , Steven J. Miller , Siman Wong

We adapt a known technique for searching for ideal classes of arbitrary order and then apply it to three families of number fields. We show that a family of cyclic sextic number fields has infinitely many fields in it that contain a…

Number Theory · Mathematics 2022-06-27 David L. Pincus , Lawrence C. Washington

In this paper, we investigate the existence of an elementary abelian closure in characteristic not $2$ for biquadratic extensions. We discover that it exists for any non-cyclic extension. We make use of it to obtain a classification for…

Number Theory · Mathematics 2020-11-06 Mpendulo Cele , Sophie Marques

In this paper, we find criteria for when cyclic cubic and cyclic quartic fields have well-rounded ideal lattices. We show that every cyclic cubic field has at least one well-rounded ideal. We also prove that there exist families of cyclic…

Number Theory · Mathematics 2024-02-14 Dat T. Tran , Nam H. Le , Ha T. N. Tran

It has been shown by Madden that there are only finitely many quadratic extensions of k(x), k a finite field, in which the ideal class group has exponent two and the infinity place of k(x) ramifies. We give a characterization of such fields…

Number Theory · Mathematics 2007-05-23 Victor Bautista-Ancona , Javier Diaz-Vargas

We prove that all imaginary biquadratic fields and cyclic quartic fields of class number $1$ are Euclidean.

Number Theory · Mathematics 2021-08-19 K Srinivas , M Subramani , Usha K Sangale

We show that the S-Euclidean minimum of an ideal class is a rational number, generalizing a result of Cerri. We also give some corollaries which explain the relationship of our results with Lenstra's notion of a norm-Euclidean ideal class…

Number Theory · Mathematics 2013-08-13 Kevin J. McGown

Here we study algebraic function fields K, give necessary and sufficient condition for the ideal class group $H(K)$ of any real quadratic function field $K$ to have a cyclic subgroup of order $n$, and obtain eight series of such fields $K$,…

Number Theory · Mathematics 2007-05-23 KunPeng Wang , Xianke Zhang

We investigate a connection between two important classes of Euclidean lattices: well-rounded and ideal lattices. A lattice of full rank in a Euclidean space is called well-rounded if its set of minimal vectors spans the whole space. We…

Number Theory · Mathematics 2012-04-10 Lenny Fukshansky , Kathleen Petersen
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