On the number of distinct prime factors of nj+a^hk

Let $\omega(n)$ denote the number of distinct prime factors of $n$. Then for any given $K\geq 2$, small $\epsilon>0$ and sufficiently large (only depending on $K$ and $\epsilon$) $x$, there exist at least $x^{1-\epsilon}$ integers $n\in[x,(1+K^{-1})x]$ such that $\omega(nj\pm a^hk)\geq(\log\log\log x)^{{1/3}-\epsilon}$ for all $2\leq a\leq K$, $1\leq j,k\leq K$ and $0\leq h\leq K\log x$.