The ability to precisely control the color of light is at the heart of most uses for lasers. Many breakthroughs were brought about by extremely precise laser technologies. The 2005 Nobel Prize in physics was awarded for precision laser control, and this has enabled atomic clocks so accurate that the effects of gravity on time can be measured. But lasers with precise colors are critical for applications that affect everyone. They are one of the core technologies enabling the autonomous vehicle revolution as well as the backbone of high data capacity telecommunications.
However, there is a challenge with lasers yet to overcome. It is difficult to make their colors pure enough as needed for many precision applications. The OPTIMISM project addresses this need by providing compact optical microresonator based on optical filters and optical reference cavities. These devices can be used to precisely filter the color of laser light or to perform advanced color correction to create lasers with very precise colors. The project focused on the important wavelength of 1550nm, which created a compact crystalline optical microresonator reference cavity as well as a narrow band photonic-chip based optical microresonator filter. The project also had the goal of transferring this technology to the Swiss start-up company MicroR Systems.