PowerMir – 4.6µm QCW QCL Bernard Azout Key Features: Maximum Average Optical Power: above 1 Watts at 4 microns and 4.6 microns, 1.5 W at 4.8µm and 300mW at 9µm Mode of operation: Quasi-CW, high duty cycled pulsed Central wavelength: 4 µm or 4.6µm, or 4.8µm or 9.Xµm +/- 0.1 µm Pulse frequency: > 500 kHz Divergence: Horizontal < 8 mrad (typically 6mrad), Vertical < 6 mrad (typically 4mrad) Beam quality: TM00 Gaussian beam, M²<1.5 Output beam dimension (window output): 2 mm x 3 mm Polarization: Linear vertically polarized
PowerMir – 4.8µm QCW QCL Bernard Azout Key Features: Maximum Average Optical Power: >1.5W or < 500mW Mode of operation: Quasi-CW, high duty cycled pulsed Central wavelength: 4.8 μm +/- 0.1 μm Pulse frequency: > 500 kHz Divergence: Horizontal:3 to 6 mrad, Vertical 2 to 4 mrad Beam quality: TM00 Gaussian beam, M²<1.5 Output beam dimension for the standard beam option (window output): Typically 3 mm (vertical) x 2 mm (horizontal) Polarization: Linear vertically polarized (>98%) Reliability: > 3500 h
POWERMIR – 4μm QCW QCL Bernard Azout Key Features: ITAR free technology QCW operating mode for increased wall-plug efficiency and reduced thermal dissipation Reproducible specs manufacturing for series productions Circular beam (option) to reduce efforts made by clients to shape the beam
UNIMIR – Single mode DFB CW QCL laser Bernard Azout Unimir benefits Very tight linewidth that drives the very high sensitivity of gas sensing CW operation delivering mW levels of output power at room temperature Pulsed operation for larger tuning range is a good option because at these long wavelengths, the intrapulse linewidth broadening is relatively small Low power consumption for integration in portable gas analysers Very stable over time with good Allan deviation results when integrated inside a gas analyser