Abstract. Let f be an L 2 -normalized weight zero Hecke-Maaß cusp form of square-free level N , character χ and Laplacian eigenvalue λ 1/4. It is shown that f ∞ ≪ λ N −1/37 , from which the hybrid bound f ∞ ≪ λ 1/4 (N λ) −δ (for some δ > 0) is derived. The first bound holds also for f = y k/2 F where F is a holomorphic cusp form of weight k with the implied constant now depending on k.
We approach the holomorphic analogue to the Quantum Unique Ergodicity conjecture through an application of the Large Sieve. We deal with shifted convolution sums as in [Ho], with various simplifications in our analysis due to the knowledge of the Ramanujan-Petersson conjecture in this holomorphic case.
We study the average size of shifted convolution summation terms related to the problem of Quantum Unique Ergodicity on SL2( )\À. Establishing an upper-bound sieve method for handling such sums, we achieve an unconditional result which suggests that the average size of the summation terms should be sufficient in application to Quantum Unique Ergodicity. In other words, cancellations among the summation terms, although welcomed, may not be required. Furthermore, the sieve method may be applied to shifted sums of other multiplicative functions with similar results under suitable conditions.
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