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The $\Gamma$ function is defined by

$\Gamma(z)=\int_{0}^{+\infty}t^{z-1}e^{-t}dt$

where $z$ is a complex number.

We know that if $z$ is real then the values of $\Gamma$ are also real. I am interested in the case where $z$ is complex and the values of $\Gamma$ are real. In particular where $0.

Is this case possible?

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Here's a picture of the contours for $\Im(\Gamma(z))=0$. As you can see, pure real values of the gamma function, and indeed most analytic functions in the complex plane, are quite common off the real line.

Gamma Function

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    i don't understand can you please explain what is the contour is?2012-12-30