三元算术、因子分解和一类问题

Q4 Mathematics Revista Colombiana de Matematicas Pub Date : 2020-02-06 DOI:10.15446/recolma.v55n2.102612

A. Bingham

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引用次数: 0

摘要

通过考虑格六边形的离散体积，自然数的普通乘法可以推广为三元运算。通过这个运算，定义了“3-素数”的自然概念——关于三元乘法的素数，结果发现3-素数非常少。它们对应于虚二次域Q（√-n），n>0，具有奇数判别式，其整数环允许唯一因子分解。我们还描述了如何将数的表示确定为三元乘积，以及通常的素性测试和整数分解的相关算法。

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Ternary arithmetic, factorization, and the class number one problem

Ordinary multiplication of natural numbers can be generalized to a ternary operation by considering discrete volumes of lattice hexagons. With this operation, a natural notion of ‘3-primality’ -primality with respect to ternary multiplication- is defined, and it turns out that there are very few 3-primes. They correspond to imaginary quadratic fields Q(√-n), n > 0, with odd discriminant and whose ring of integers admits unique factorization. We also describe how to determine representations of numbers as ternary products and related algorithms for usual primality testing and integer factorization.

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