Stable single-frequency operation
Utilises DFB/DBR diode technology to deliver reliable, mode-hop-free performance for precision applications.
- DFB/DBR
Single-Frequency DFB/DBR Laser Systems
- Stable single-frequency output (mode-hop-free)
- Low-SWaP, USB-C powered compact design
- Available across telecom, atomic, and sensing wavelengths
- Fibre-coupled output for easy system integration
- Configurable linewidth and power options
Description
Compact, fibre-coupled single-frequency lasers with flexible wavelength options
This system combines the reliability of DFB/DBR laser diodes with a fully integrated, low-SWaP digital control platform. Built around the mLC Mini Laser Controller, it provides a compact, USB-C powered solution for applications requiring stable single-frequency operation.
Designed for ease of use and system integration, these lasers offer a wide selection of wavelength, power, and linewidth configurations to suit both research and industrial environments.
Compact, low-SWaP design
Integrated with the mLC Mini Laser Controller for a space-efficient, standalone solution powered via USB-C.
Wide wavelength flexibility
Available across a broad range of wavelengths, including atomic transitions, telecom bands, and gas sensing lines.
Configurable linewidth options
Supports both standard and ultra-narrow linewidth configurations depending on application requirements.
Fibre-coupled output
Ensures stable, alignment-free operation and easy integration into optical systems.
Applications
- Atomic and molecular spectroscopy
- Quantum technologies
- Optical communications (telecom wavelengths)
- Gas sensing and environmental monitoring
- General-purpose single-frequency laser applications
System Configuration Notes
Double-stage optical isolation is recommended to minimise feedback sensitivity and ensure optimal performance. Optional fibre-coupled isolators can be integrated as part of the system.