arXiv:1602.00099 Abstract | arXiv Analytics

arXiv:1602.00099 [math.CA]Abstract References Reviews Resources

The Stokes phenomenon and the Lerch zeta function

Published 2016-01-30Version 1

We examine the exponentially improved asymptotic expansion of the Lerch zeta function $L(\lambda,a,s)=\sum_{n=1}^\infty \exp (2\pi ni\lambda)/(n+a)^s$ for large complex values of $a$, with $\lambda$ and $s$ regarded as parameters. It is shown that an infinite number of subdominant exponential terms switch on across the Stokes lines $\arg\,a=\pm\pi/2$. In addition, it is found that the transition across the upper and lower imaginary $a$-axes is associated, in general, with unequal scales. Numerical calculations are presented to confirm the theoretical predictions.

Comments: 13 pages, 0 figures. arXiv admin note: text overlap with arXiv:1407.2782

Categories: math.CA

Subjects: 11M35, 30E15, 34E05, 41A30, 41A60

Keywords: lerch zeta function, stokes phenomenon, subdominant exponential terms switch, large complex values, asymptotic expansion

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arXiv:1602.00099 [math.CA]Abstract References Reviews Resources

The Stokes phenomenon and the Lerch zeta function

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The Stokes phenomenon and the Lerch zeta function

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arXiv:1602.00099 [math.CA]Abstract References Reviews Resources