Focusing membrane metamirrors for integrated cavity optomechanics

Abstract

We have realized a suspended, high-reflectivity focusing metamirror (f≈ 10 cm, R ≈ 99\%) by non-periodic photonic crystal patterning of a Si3N4 membrane. The design enables construction of a stable, short (L = 30 μm), high-finesse (F>600) membrane cavity optomechanical system using a single plano dielectric end-mirror. We present the metamirror design, fabrication process, and characterization of its reflectivity using both free space and cavity-based transmission measurements. The mirror's effective radius of curvature is inferred from the transverse mode spectrum of the cavity. In combination with phononic engineering and metallization, focusing membrane mirrors offer a route towards high-cooperativity, vertically-integrated cavity optomechanical systems with applications ranging from precision force sensing to hybrid quantum transduction.