Precision
in every pulse
Laser innovations for most demanding applications
Femtosecond |
Ultra-low-noise |
Mid-infrared |
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ModeSeed
ModeHybrid is a versatile high power fiber laser system with multiple outputs: 1560 nm, 1060 nm (up to 3W), and an octave-spanning supercontinum. Suited for most demanding scientific and industrial applications.
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ModeHybrid
ModeHybrid is a versatile high power fiber laser system with multiple outputs: 1560 nm, 1060 nm (up to 3W), and an octave-spanning supercontinum. Suited for most demanding scientific and industrial applications.
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ModeMIR
ModeMIR is a mid-infrared optical frequency comb that delivers broadband radiation in the 3-5 µm and 6-10 µm spectral ranges. Thanks to its active output power stability and automatic wavelength tuning, it is suited to precise metrological applications.
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ModeSHG
ModeSHG is a compact, turn-key operated Er-doped fiber laser with second harmonic generation (760-780 nm), and integrated pulse-picker for repetition rate tuning. Ideal for multiphoton and fluorescence microscopy.
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ModeCW
Mode CW is a continuous wave fiber laser system delivering up to 6W in the 1550-1570 nm spectral range with an ultra-low-noise RIN lower than 0.008%. It can serve as a perfect pumping source of Cr:ZnS/Se oscillators.
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ModeSync
ModeSync is a low-noise electronic system with an integrated PID controller dedicated to carrier-envelope offset frequency stabilization. It allows for the quick realization of an offset-free frequency comb.
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Low-noise electronics
We specialize in low-noise electronic solutions, such as laser diode drivers, PIDs, and phase detectors. These allow the realization of advanced laser systems where frequency stabilization and reduction of phase and amplitude noise are desirable.
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Custom products
Mode-Locked Technology offers a variety of customized solutions, including femtosecond oscillators, amplifiers, nonlinear frequency conversion modules, laser diode drivers, etc. Contact us for more details!
Technology
Mode-Locked Technology has been striving for many years to replace the existing mode-locking technique in laser oscillators based on SESAM (typical problems with degradation and commonly used free space coupling) with a method based on the nonlinear properties of optical fibers.
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