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I'm trying to prove $| \Gamma (x_{n})| \to 0 $ as $n \to \infty$ where $x_{n} \in [-n+\delta,1-n-\delta] $ for some $\delta > 0 $.

What possible method can I use?

As a special case, I've proved the above result for $x_{n} = 1/2 - n$. Can I use this result for the proof of the above?

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From $\Gamma(x+1)=x\,\Gamma(x)$ you get $\Gamma(-n+x)=\frac{1}{(x-n)(x-(n-1))\dots(x-1)}\Gamma(x).$ If $x_n=-n+a_n$, so that $\delta, you have $\Gamma(a_n)$ bounded and $\frac{1}{(a_n-n)(a_n-(n-1))\dots(a_n-1)}\to 0.$

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    @joriki sorry for confusion, now I made my notation consistent with the question2012-09-27
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This is false. The gamma function has poles at the negative integers, so you can choose arbitrarily large moduli for each $n$.

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    Ah sorry my bad. I've modified the problem2012-09-27