> $\DeclareMathOperator\rad{rad}$**Conjecture:**  *If $A, B, C$ are positive integers with $\gcd(A, B)=1$, $\gcd(B, C)=1$, and $\gcd(C, A)=1$, and if $A+B=C$, then $\min(A,B) \le \rad(ABC)$.*

If the conjecture is valid, then we can use the conjecture to prove the Fermat last theorem as follows:

**Proof of the Fermat last theorem:**

We consider the Fermat equation: 

$x^n+y^n=z^n$ with $\gcd(x, y)=1$, $\gcd(y, z)=1$, and $\gcd(z, x)=1$.

There is no loss of generality in assuming that $x \le y <z$. By the conjecture, we get $x^n \le \rad(x^n y^n z^n)=\rad(x y z)\le x y z $.

So $x^n+y^n \le xyz+y^n<z^3+(z-1)^n$.

But we can easily prove that $z^3+(z-1)^n < z^n$ whenever $n > 3$ and $z>1$. So now we only need to prove the Fermat last theorem with $n=3$.

> **My question:** Is the conjecture above new and correct?