The number of solutionsto the trinomial Thue equation

Greg Knapp
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引用次数: 0

Abstract

In this paper, we study the number of integer pair solutions to the equation $|F(x,y)| = 1$ where $F(x,y) \in \Z[x,y]$ is an irreducible (over $\Z$) binary form with degree $n \geq 3$ and exactly three nonzero summands. In particular, we improve Thomas' explicit upper bounds on the number of solutions to this equation (see [13]). For instance, when $n \geq 219$, we show that there are no more than 32 integer pair solutions to this equation when $n$ is odd and no more than 40 integer pair solutions to this equation when $n$ is even, an improvement on Thomas' work in [13], where he shows that there are no more than 38 such solutions when $n$ is odd and no more than 48 such solutions when $n$ is even.
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三叉方程解的个数
本文研究了方程$|F(x,y)| = 1$的整数对解的个数,其中$F(x,y) \in \Z[x,y]$是次为$n \geq 3$的不可约(在$\Z$上)二进制形式,且恰好有三个非零和。特别地,我们改进了Thomas关于该方程解个数的显式上界(见[13])。例如,当$n \geq 219$时,我们表明,当$n$为奇数时,该方程的整数对解不超过32个,当$n$为偶数时,该方程的整数对解不超过40个,这是对Thomas在[13]中的工作的改进,他表明,当$n$为奇数时,该方程的整数对解不超过38个,当$n$为偶数时,该方程的整数对解不超过48个。
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来源期刊
CiteScore
0.80
自引率
20.00%
发文量
14
期刊最新文献
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