Ultrahigh-Q on-chip silicon-germanium microresonators

Abstract

We demonstrate fully crystalline, single-mode ultrahigh quality factor integrated microresonators comprising epitaxially grown Si0.86Ge0.14 waveguide cores with silicon claddings. These waveguides support resonances with internal Q >108 for both polarization modes, a nearly order-of-magnitude improvement over that seen in prior integrated Si photonics platforms. The maximum Q is 1.710.06 × 108 for the transverse magnetic (TM) polarization mode, corresponding to a loss of 0.390.02 dB/m. Together with silicon's strong Kerr nonlinearity and low losses in the optical, microwave and acoustic regimes, our results could lead to the Si1-xGex/Si architecture unlocking important new avenues for Kerr frequency combs, optomechanics, and quantum transduction.