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arXiv:1109.1385 [math.NT]Abstract References Reviews Resources

On the Rankin-Selberg problem in short intervals

Published 2011-09-07Version 1

If $$ \Delta(x) \;:=\; \sum_{n\leqslant x}c_n - Cx\qquad(C>0) $$ denotes the error term in the classical Rankin-Selberg problem, then we obtain a non-trivial upper bound for the mean square of $\Delta(x+U) - \Delta(x)$ for a certain range of $U = U(X)$. In particular, under the Lindel\"of hypothesis for $\zeta(s)$, it is shown that $$ \int_X^{2X} \Bigl(\Delta(x+U)-\Delta(x)\Bigr)^2\,{\roman d} x \;\ll_\epsilon\; X^{9/7+\epsilon}U^{8/7}, $$ while under the Lindel\"of hypothesis for the Rankin-Selberg zeta-function the integral is bounded by $X^{1+\epsilon}U^{4/3}$. An analogous result for the discrete second moment of $\Delta(x+U)-\Delta(x)$ also holds.

Comments: 12 pages

Journal: Moscow Journal of Combinatorics and Number Theory, vol. {\bf 2}, issue 3, 2012, 3-17

Categories: math.NT

Subjects: 11N37, 44A15, 26A12

Keywords: short intervals, discrete second moment, non-trivial upper bound, error term, rankin-selberg zeta-function

Tags: journal article

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