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Please find a closed form for partial sum of a function

$$f(x)=a^{1/x}$$

I want it to be expressed in terms of bounded number of elementary functions and/or well known special functions.

No computer algebra systems I have tried so far could find a satisfactory solution. I believe that the expression can exist in the terms of incomplete Gamma function or its generalizations because indefinite integral of this function can be expressed in terms of incomplete Gamma function:

$$\int f(x) dx= x\sqrt[x]{a}-\operatorname{Ei}\left(\frac{\ln a}{x}\right)\ln a$$

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    If an expression has a nice integral, there's no reason to believe the corresponding sum would have just as nice a representation, and vice-versa.2010-11-08
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    To illustrate J.M.'s point: think of $f(x)=1/x^2$ for example. Very simple to integrate, no nice formula for the partial sums.2010-11-08
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    It should be, however, certainly easy to get good upper and lower bounds on your sum. E.g., use am-gm or its refinements to get a lower-bound (or maybe just use the integral to get lower and upper bounds in the standard way)2010-11-08
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    @Hans Lundmark, there is a simple expression for that function, http://www.wolframalpha.com/input/?i=DifferenceDelta[-PolyGamma[1%2Cx]%2Cx]2010-11-09
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    And for any natural a, the function $f(x)=\frac 1{x^a}$ has the following partial sum (to x-1): $\frac{(-1)^{a-1}\psi^{(a-1)}(x)}{\Gamma(a)}+C$2010-11-09
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    @MathFacts: OK, good point. I should have said "in terms of elementary functions". But since the question mentions the gamma function, I guess the polygamma function would count as a simple enough expression. I think I'll go hide in a corner for a while instead of writing useless comments. ;)2010-11-09

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