[摘要] We study weakly stable hyperbolic boundary problems with highly oscillatory coefficients that are large, O (1), compared to the small wavelength epsilon of oscillations. Such problems arise, for example, in the study of classical questions concerning the stability of Mach stems and compressible vortex sheets. For such applications one seeks to prove energy estimates that are in an appropriate sense uniform with respect to the small wavelength epsilon, but the large oscillatory coefficients are a formidable obstacle to obtaining such estimates. In this paper we analyze a simplified form of the linearized problems that are relevant to the above stability questions, and obtain results that are both positive and negative. On the one hand we identify favorable structural conditions under which it is possible to prove uniform estimates, and then do so by a new approach. We also construct examples showing that large oscillatory coefficients can give rise to an instantaneous multiple amplification of the amplitude of solutions relative to data; for example, oscillatory boundary data of a given amplitude O (1) can immediately give rise to a solution of amplitude O(1/epsilon(K)), where K >= 2.(1) We use the examples of multiple amplification to confirm the optimality of our uniform estimates when the favorable structural conditions hold. When those conditions do not hold, we explain how multiple amplification of infinite order may rule out useful estimates. (C) 2020 Elsevier Inc. All rights reserved.