Monolithic mode-locked laser
Background
Mode-locked lasers are imperative for the generation and application of coherent optical frequency combs. Low noise is necessary for many applications. However, the current super low noise MLLs are massive lab-bench systems and unusable in industry applications.
Technology
This monolithic mode-locked laser is a phase-stabilized, fully monolithic solid-state oscillator. The laser is made of calcium fluoride and is drastically smaller in size and weight then current MLLs. The laser has a 1 GHz fundamental repetition rate and requires dramatically less power than fiber-based combs. Furthermore, it has excellent phase-noise performance at high repetition rates.
Advantages
- 1 GHz Fundamental Repetition Rate
- 10 cm X 2 cm X 1 cm Laser Cavity
- Low Power Consumption
- *8 GHz phase noise below -168 dBc/Hz at 10 kHz and -178 dBc/Hz at 100 kHz offsets
- *Note – the measurement is limited by the microwave generation setup rather than the MLL design
Applications
- Instrumentation
- Precision Measurements
- Ultra-low Noise
- Microwave Generation
What's Next?
This technology is available for exclusive or non-exclusive licensing.
Nicole Forsberg: nicole.forsberg@colorado.edu
The Newsroom
For marketing and communication inquiries or news tips, contact Daniel Leonard, senior marketing and communications specialist for Venture Partners at CU Â鶹ӰԺ.
For media inquiries, please visit .