I. Introduction

Microlenses array are widespread in optics and they are used for collimation, imaging, laser beam shaping and homogenizing. They introduce interferences in the output intensity profile when they are used with coherence light. To correct these effects diffusers are often used in combination with beam shaping optics. In this paper we propose a single dynamic optical device that is able to shape a laser beams and smooth the interferences. It consists of a randomized concave micromirror array with tunable focal lengths. The whole array is directly fabricated over a rotating stage that provides beam smoothing by averaging of the interferences effects (fig. 1). In the next sections we present the concept and the design of the device. The fabrication process is detailed followed by the presentation of optical simulations and experimental results. Fig. 1. A dynamically deformable membrane is supported by posts or beams that are fabricated on a 5 mm wide rotating stage. The membrane is electrostatically actuated by a parallel plate actuator and the stage is scanned at resonance by in plane comb drives. The stage is supported by 2 large springs for high heat conductivity.