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High Conversion Efficiency: Achieved through the use of a quasi-phase-matching (QPM) phenomenon, utilizing the higher nonlinear coefficient (d33) compared to birefringent phase matching.
Wide Transparent Spectrum: Covers 0.4 to 5 μm.
Enhanced Damage Threshold: 5% MgO doping significantly improves the crystal’s damage threshold.
Convenient Temperature Environment: QPM allows for efficient operation without stringent temperature controls.
Absence of Spatial Walk-Off: Ensures stable and efficient non-linear interactions.
Low Possibility of Photorefractive Issues: Reduces the likelihood of adverse effects during high-power operations.
Applications: Second Harmonic Generation (SHG), Sum Frequency Generation (SFG), Difference Frequency Generation (DFG), Optical Parametric Amplification (OPA), Optical Parametric Oscillation (OPO), Optical Parametric Generation (OPG), etc.
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Compact Design: Small-size laser modules for easy integration into larger systems.
High Output Power: Delivers powerful laser output suitable for various applications.
Superb Conversion Efficiencies: Efficiently converts primary laser light into desired wavelengths.
Versatile Wavelength Outputs: Available in standard output wavelengths and customizable options.
Applications: Scientific Research, Medical Devices, Industrial Manufacturing, Laser Displays, etc.
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Efficient Frequency Conversion: The MgO crystal within the module converts the 1064nm Nd laser pumped by an 808nm laser diode to a 532nm green output through Second Harmonic Generation (SHG).Additionally, a 561nm laser output can be obtained from SHG of a 1122nm Nd laser.
Compact and Integrated Design: All elements, including the PPLN crystal and the Nd crystal, are assembled with a copper heat sink, ensuring efficient heat dissipation and stable performance.
High Output Power and Conversion Efficiency: The module is engineered for high power output and superior conversion efficiency, making it an indispensable component for advanced laser systems.
Versatile Applications: With its compact size and efficient performance, the mGreen module is suitable for various applications, including laser displays, medical devices, and scientific research.
Applications: Laser Displays, Medical Devices, Scientific Research, etc.
