SkyAMP 1030nm-LP Ultracompact Ultrafast Single Mode Laser Amplifier Booster

Specifications

Center Wavelength: 1030 nm
Repetition Rate: 1 – 80000 kHz
Pulse Energy: 1 mJ
Energy Stability (RMS): 1 %
Pulse Duration: 500 fs
Polarization: Unspecified
Spatial Mode (M^2): <1.3
Amplification Scheme: Not Specified
Average Output Power: up to 30 W
Average Input Power: as low as 0.1 W
Dimensions: 270 X 220 X 50 mm
Output Beam Structure: Single Mode
Input Port Connector: SMA
Cooling: Water
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Features


  • Standard MM Pump Fiber Input: Designed for compatibility with standard multimode pump fibers, ensuring efficient power delivery.

  • Compact and Rugged Design: Built to withstand demanding environments while maintaining a small footprint.

  • Easy In-line Integration: Simplifies the process of incorporating the amplifier into existing systems.

  • Water Cooled: Features water cooling to maintain optimal performance and prevent overheating.

  • Standard SMA Pump Port: Equipped with a standard SMA port for easy connection and integration.

  • 1.03 Micron Amplifier/Booster: Operates at a center wavelength of 1030 nm, ideal for a wide range of applications.

  • Single Mode Laser: Ensures high beam quality with an output M2 limited by input M2.

  • Output Power: Capable of delivering up to 80 W, depending on input power.

  • Input Wavelength: Accepts input wavelengths ranging from 1029 to 1031 nm.

  • Output Wavelength: Also operates within a wavelength range of 1029 to 1031 nm for optimal performance.

  • Port Return Loss: Offers a port return loss greater than 40 dB, minimizing feedback and ensuring stable operation.

  • Fiber Type: Available in 105/125 or 200/220 loose tube configurations with a core/clad diameter NA of 0.22.

  • Water Cooling Tube Fittings: Compatible with 1/4" tubing, facilitating easy setup and maintenance.

  • Gain: Provides a gain range from 0 to 40 dB, adaptable to varying input power levels.

Applications


  • Industrial Material Processing: Enables stable, high-power amplification for precision cutting, welding, and marking.

  • Scientific Research: Ideal for laboratory-based high-resolution spectroscopy and laser experiments.

  • Fiber Laser Systems: Serves as an efficient booster stage in high-power laser setups.

  • Nonlinear Optics: Supports generation of higher harmonics and other nonlinear effects.