Yong-Gao Chen, Hao Tian
Published 2017-11-01Version 1
In this paper, we consider the equations involving Euler's totient function $\phi$ and Lucas type sequences. In particular, we prove that the equation $\phi (x^m-y^m)=x^n-y^n$ has no solutions in positive integers $x, y, m, n$ except for the trivial solutions $(x, y, m , n)=(a+1, a, 1, 1)$, where $a$ is a positive integer, and the equation $\phi ((x^m-y^m)/(x-y))=(x^n-y^n)/(x-y)$ has no solutions in positive integers $x, y, m, n$ except for the trivial solutions $(x, y, m , n)=(a, b, 1, 1)$, where $a, b$ are integers with $a>b\ge 1$.
Some Diophantine equations involving arithmetic functions and Bhargava factorials
On Diophantine equations with Fibonacci and Lucas sequences associated to Hardy-Ramanujan problem
A note on the Diophantine equations $x^{2}\pm5^α\cdot p^{n}=y^{n}$
![QR code for arXiv:1711.00180 [math.NT]](http://oss.arxitics.com/images/favicon.svg)