Broadband Lasers
Just some starter/filler – do people know they want a supercontinuum or that they even exist:
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- Broadband CW Fiber Lasers & Pulsed Tunable Supercontinuum Lasers: Ultra-wideband, fiber-coupled, spectral broadening, tunable filters, wide wavelength range, central wavelength, spectral bandwidth.
- Applications: Ideal for LIDAR, spectroscopy, hyperspectral imaging, biomedical imaging (confocal, multiphoton, lifetime, CARS), OCT, fluorescence microscopy, metrology, and materials characterization.
- Features and Benefits: Nonlinear optical effects (self-phase modulation, cross-phase modulation, four-wave mixing), pulse duration (ps to ns), repetition rates (Hz to MHz), total power (150 mW to 6 W), dual synchronized outputs.
Broadband CW Fiber Lasers & Pulsed Tunable Supercontinuum Lasers
Broadband continuous-wave (CW) fiber lasers and pulsed tunable supercontinuum lasers offer ultra-wideband capabilities. These lasers are fiber-coupled and utilize spectral broadening techniques with tunable filters to achieve a wide wavelength range, central wavelength, and spectral bandwidth.
Applications
These advanced laser systems are ideal for a variety of applications, including LIDAR for remote sensing, spectroscopy for chemical analysis, and optical coherence tomography (OCT) for detailed imaging. They are also crucial in biomedical imaging techniques such as confocal, multiphoton, lifetime, and coherent anti-Stokes Raman scattering (CARS) microscopy, as well as fluorescence microscopy, metrology, and materials characterization.
Features and Benefits
Broadband CW fiber lasers and pulsed tunable supercontinuum lasers leverage nonlinear optical effects like self-phase modulation, cross-phase modulation, and four-wave mixing. They offer pulse durations ranging from picoseconds to nanoseconds, repetition rates from Hertz to Megahertz, total power outputs from 150 mW to 6 W, and dual synchronized outputs, providing high precision and flexibility for various applications.