Abstract
Frequency comb generation in microresonators at visible wavelengths has found applications in a variety of areas such as metrology, sensing, and imaging. To achieve Kerr combs based on four-wave mixing in a microresonator, dispersion must be in the anomalous regime. In this Letter, we demonstrate dispersion engineering in a microbubble resonator (MBR) fabricated by a two-CO2 laser beam technique. By decreasing the wall thickness of the MBR to 1.4μm, the zero dispersion wavelength shifts to values shorter than 764nm, making phase matching possible around 765nm. With the optical Q-factor of the MBR modes being greater than 107, four-wave mixing is observed at 765nm for a pump power of 3mW. By increasing the pump power, parametric oscillation is achieved, and a frequency comb with 14 comb lines is generated at visible wavelengths.
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