Compact Beam Profiler

Product Description

The compact beam quality analyzer is designed for online monitoring and profile detection of focused spots in laser systems with power below 50W, including laser sources and laser processing optical paths.

This compact product series features fine adjustment capabilities in both X and Z axes, making it ideal for space-constrained processing applications. With a maximum measurable power of 50W, the series offers an extended detection range.

When paired with LasescopeNX software, the system enables real-time beam monitoring and measurement of:

• Laser spot size

• Centroid position

• Ellipticity

• Relative power

• Beam pointing stability

• Power stability

• 2D/3D energy distribution

• Divergence angle

The analyzer supports simultaneous multi-spot measurement and provides data export functionality for both measurement results and comprehensive reports, meeting routine laser parameter measurement requirements.

Product Features

• Compact structure with 13mm movable range in X-direction and high stepping precision

• Supports manual/automatic real-time exposure and gain adjustment

• Compatible with various laser types, with maximum detection power increased to 50W

• Broad spectral response (340nm~1100nm), extendable to UV detection

• Standard model maximum detection area: 9.8mm

• Measures both collimated and focused spots with vertical light input (customizable for other requirements)

• Powerful software supporting both large-spot stitching detection and multi-spot detection

Application Fields

Beam quality analyzers are widely used in laser processing, optical communications, biomedical applications, and optical imaging.

Laser Processing: Enables real-time beam quality monitoring during laser cutting, welding and other processes to optimize parameters and improve processing accuracy and efficiency.

Optical Communications: Evaluates beam quality of optical fibers, amplifiers and other components in fiber optic communication systems to ensure transmission efficiency and signal quality.

Biomedical: Used for laser beam shaping and adjustment in optical tweezers, cell sorting and other medical/biotech applications to achieve precise operations.

Optical Imaging: Significantly impacts resolution and contrast of imaging systems, applicable for lens quality inspection and optical system calibration.