Laser Systems Catalog
Showing 1–12 of 20 series
405nm-940nm Wavelength Single Mode Test Light Source
This Light Source adopts DFB or F-P Type Semiconductor Laser Chip, professionally designed drive and temperature control circuits. Temperature control ensures safe laser operation. Comprehensive wavelength options from 405 to 940 nm, stable output power, SM fiber output, excellent beam quality (LP01 mode). This device features rich wavelength options, tunable power, narrow spectral linewidth, easy operation, and high safety.
780~1610nm Single Band SLD Broadband Light Source
This SLD broadband light source uses a superluminescent semiconductor diode chip to output a low-coherence broadband spectrum with relatively high output optical power spectral density. Center wavelengths are selectable across O, S, C, and L bands (780/850/1310/1400/1450/1470/1550/1610 nm). Suitable for OCT imaging, fiber sensing, and optical component testing applications.
1010~1100nm Band ASE Broadband Light Source
The 1010~1100 nm band ASE broadband light source uses rare-earth fiber spontaneous emission to provide ultra-broad spectral coverage from 1010 to 1100 nm with maximum output power up to 100 mW. It features high output power, 20 dB spectral flatness, and extremely low DOP (Degree of Polarization). All configurations include tunable power adjustment from 10% to 100%. Available in SM (Hi-1060) fiber with 20/100 mW output or PM (PM980) fiber with 20/50 mW output, in M20/M27 module or B1 benchtop package forms. Suitable for OCT imaging, fiber sensing, and fiber component testing.
1030nm Band ASE Broadband Light Source
The 1030 nm band ASE broadband light source is based on ytterbium-doped fiber and a semiconductor pump laser, providing spectral coverage from 1018 to 1044 nm with high output power and a polarization extinction ratio as low as 0.2 dB. It features high output power, excellent spectral flatness, and extremely low DOP (Degree of Polarization). Available in fixed power and tunable power (10%~100%) versions with SM (Hi-1060) or PM (PM980) fiber options. Suitable for fiber sensing, medical imaging, fiber component testing, and FBG characterization. Package options include M20/M27 module and B1/B2 benchtop forms.
1064nm Band ASE Broadband Light Source
The 1064 nm band ASE broadband light source uses rare-earth fiber spontaneous emission to provide broad spectral coverage from 1030 to 1080 nm with maximum output power up to 1000 mW. It features high output power, excellent spectral flatness, and extremely low DOP (Degree of Polarization). Available in fixed power and tunable power (10%~100%) versions with SM (Hi-1060) or PM (PM980) fiber options. Suitable for OCT imaging, fiber sensing, fiber component performance testing, and FBG characterization. Package options include M20/M27 module and B1/B2 benchtop forms.
1270~1650nm Single Mode Fiber Testing Light Source
The SM fiber test light source is a common device for research and production testing, providing single-channel single-wavelength low-power laser output. It offers selectable wavelengths across multiple near-infrared fiber communication bands from 1270 to 1650 nm, with stable spectrum and power. This device features rich wavelength options, tunable power, narrow spectral linewidth, easy operation, and high safety.
Multi-Channel Continuous Wave Fiber Light Source
Multi-channel benchtop CW fiber light source supporting DFB laser and DWDM configurations. DFB/CW models cover 1270~1610nm with ±2nm accuracy; DFB/DWDM models cover ITU channels C16~C60 with ±0.5nm accuracy. Both feature <3MHz spectral linewidth and are available with multi-fiber output (each wavelength on a dedicated fiber) or single-fiber wavelength-switchable output. Suitable for fiber sensing, optical component testing, medical imaging, semiconductor inspection, and production testing applications.
1310nm Wavelength SM Fiber Coupled Laser
This single-wavelength laser light source uses a DFB semiconductor laser chip with SM fiber output. Professionally designed drive and temperature control circuits ensure safe and stable laser operation. Available in benchtop or module package.
1455nm Wavelength Single-Mode Fiber-Coupled Laser Series
The single-wavelength CW laser source in the 1425–1465 nm band outputs through SM fiber. Professionally designed drive and temperature control circuits ensure safe and stable operation. Available in benchtop or module package. Widely applicable in fiber sensing, optical component testing, biomedical imaging, semiconductor inspection, machine vision, and other fields, meeting the need for a stable S-band light source.
1550nm Narrow Linewidth Semiconductor Laser
This 1550 nm single-frequency narrow-linewidth laser is based on an ultra-narrow-linewidth external cavity semiconductor (ECL) chip, delivering single-longitudinal-mode CW output with spectral linewidth of 150~200 kHz and side mode suppression ratio ≥50 dB. Available with output power of 20, 50, or 100 mW in both SM (SMF-28) and PM (PM1550) fiber options, with module (M15/M20) and benchtop (B1) package forms. Ideal for distributed fiber sensing, LiDAR, quantum optics, and precision spectroscopy.
1550nm Wavelength SM Fiber Coupled Laser
This 1550nm single-wavelength CW laser source outputs through SM fiber. Professionally designed drive and temperature control circuits ensure safe and stable operation. Available in benchtop or module package. Widely applicable in fiber sensing, optical component testing, biomedical imaging, semiconductor inspection, machine vision, and other fields, meeting the need for a stable C-band spectrum.
1550nm/1570nm/1590nm Wavelength High Power SM Fiber Coupled Laser
This laser adopts a DFB seed source combined with a high-power optical gain module architecture design, achieving high-power SM fiber output at a single 1550 nm or 1570 nm wavelength. It is equipped with professionally designed drive and temperature control circuits that ensure safe and stable laser operation under all conditions, maintaining spectral characteristics and output power consistency over the long term. The benchtop design combines operational convenience with a clean, intuitive control interface, fully meeting the requirements of research users in laboratory applications.