SPECTRAL
SUPREMACY
Precision DWDM Lasers
Patented FM comb laser technology
Enabling optical connectivity in AI datacenters
DEEP PHYSICS
ADVANTAGE
We have shifted the 60-year-old paradigm in semiconductor lasers. By relying on decades-verified fabrication technology, we deliver a new laser architecture with unprecedented wavelength stability, energy efficiency, and cost.
FM comb laser
Generates multiple wavelength channels out of a singular laser cavity; new-physics-based solution that is mass-manufacturable today.
Equidistant channels
1 Hz RF linewidth — channels fully locked to the ITU grid, outperforming DFB arrays and other comb engines; no spurious mode lasing.
Broadband output
Flat-top spectra up to 4 THz with reconfigurable channel spacing (8..32 channels and beyond).
Feedback-insensitive
Up to 0 dB — rooted in physics and cavity architecture: no need for an optical isolator or reflection mitigation.
Robust yield
Does not decrease with the number of channels; minimized calibration and control overhead.
Rapid prototyping
Decades of expertise in laser dynamics and advanced GPU-accelerated modeling enable us to deliver bespoke modules fast and reliably.
BEST-IN-CLASS
COMB LASERS
Our FM comb laser generates multiple high-power wavelengths from a single semiconductor chip. Designed for today's terabit optical links, it scales seamlessly to meet tomorrow's exponentially growing AI datacenter demands.
| Bands | O · C · L |
| Channel spacing | 10 – 200 GHz, reprogrammable |
| Grid stability | Equidistant, sub-Hz |
| Max channels | 1000+ wavelengths (grid-specific) |
| Output power | Up to 20 dBm total |
| Isolation | Isolator-free, feedback-insensitive |
| Low RIN | Best in class intensity noise performance |
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TOUCH
Discover how our supreme comb lasers can power your next-generation optical systems.