Optical Glass Components
Periscope Prism
Infrared Optical Elements
Laser Lens
English
Jan 15-2025
Beam combiners are partial reflectors that combine two or more wavelengths of light—one in transmission and one in reflection—onto a single beam path. Since the 10.6 micron laser is invisible, in laser marking, we often need to know the laser’s focus to ensure correct marking positions. By using a dichroic laser beam combiner, we can combine the visible 650nm red light emitted by the diode with the 10.6 micron laser into one beam. This way, the 650nm red light indicates the position of the 10.6 micron laser. In laser cutting, a laser cutter beam combiner is essential for precisely combining different wavelengths, ensuring high accuracy and efficiency. Surface 1: T>99%@10.6um, 45° AOI Surface 2: T>99%@10.6um, R>85%@650nm, 45° AOI. These high-performance beam combiners help achieve greater precision and efficiency in various applications.
25mm x 3mm: This size of laser cutter beam combiner is usually used in small laser cutting equipment. It is designed to achieve efficient beam synthesis in a compact space, suitable for fine processing and cutting of small workpieces.
30mm x 5mm: This size of laser combiner is suitable for medium-sized laser cutting equipment. It is designed to provide higher power handling capabilities and better beam quality. It is suitable for cutting and engraving medium-sized workpieces.
38mm x 6mm: This size of optical beam combiner is used in large laser cutting equipment. It is designed to handle higher laser power and larger beam diameter. 38mm Co2 laser red dot combiner is suitable for efficient cutting of large-sized workpieces and processing of thick materials.
Efficient Beam Combination: Beam combiners efficiently combine multiple laser beams into a single output beam.
Adjustable Power Ratios: Some beam combiners allow for adjustable power ratios between the combined beams.
Compact Design: Beam combiners are often compact, saving space in optical setups.
Versatility: Beam combiners can combine beams of different wavelengths, making them versatile for various applications.
1.Laser system: Laser beam combiner can combine lasers of multiple wavelengths to improve the power and stability of the beam, which is suitable for high-precision processing and medical equipment.
2.Optical communication: In optical fiber communication, wavelength division multiplexer (WDM) significantly improves data transmission capacity and efficiency to meet the needs of high-speed networks.
3.Spectral analysis: By synthesizing beams of different wavelengths, beam combiner achieves high-precision spectral measurement in the spectrum analyzer, which is suitable for scientific research and industrial detection.
4.Microscope: In fluorescence microscope, dichroic combiner is used to synthesize excitation light sources of different wavelengths to improve imaging quality and resolution.
5.Optical measurement: In interferometers and other optical measurement equipment, cube beam splitters ensure accurate synthesis of beams and improve measurement accuracy.
