ML6600 – high-power laser system with multi-wavelength support Bernard Azout Key features: ML6600 laser system has 1-3 receptacle laser outputs. The control, cooling and driver are integrated, and the control supports both analog and digital modes. • Wavelengths: 400–2000 nm • Power range: up to 120 W, depending on the wavelength
Solid-State Lasers: JenLas® D2. series Bernard Azout Key features: High precision: Based on proven disk laser technology. Optimal beam quality: Due to a thin Nd:YVO4 disk as the laser medium. Peltier cooling: No water in the system. Easy to integrate: Compact OEM design.
Tapered Amplifiers (MOA) Michael Iluz Key Features: Wavelength 645nm – 1080nm Output power up to 4W, depending on wavelength High stability wire-cut flexure alignment with simple optimisation procedure User-replaceable TA diode Astigmatic correction lens
TRUMPF TruFiber P compact – Compact, flexible and versatile INFO Key Features: Fiber lasers Power: 100 W – 2000 W High degree of laser safety & maintenance free operation Air or water cooled Wavelength: 1071±2 nm – 1075±2 nm Source: TRUMPF Group
Tunable Cateye Lasere (CEL) Michael Iluz Key Features Cateye filter design Fast piezo feedback Precision wavelength adjustment High bandwidth direct modulation Microwave RF modulation Wavelengths 450 – 530nm, 630 – 1620nm Diode protection circuit and relay Acoustically inert and passively stable Narrow linewidth Low frequency-noise Self-aligning High feedback bandwidth
Tunable Littrow Lasers (LDL) Michael Iluz Key Features: Vibrationally inert Passive stability Wide tuning range Decoupled grating rotation and tilt Wide mode-hop free scan range Narrow linewidth Fast piezo feedback Precision alignment controls High bandwidth low latency modulation Diode protection circuit and relay Low frequency noise
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