50W 450nm 105μm Fiber Coupled Power Diode Laser
Description
The GKER Photonics Co., Ltd 50W 450nm Fiber Coupled Power Diode Laser (GK-450050105S) is engineered for precision and high performance in a range of applications. This diode laser offers a maximum output power of 50W and operates at a center wavelength of 450nm, making it suitable for applications requiring high-intensity blue light.
The laser features a 105μm fiber core diameter and a numerical aperture (NA) of 0.22, ensuring effective coupling and efficient light delivery. The 95% power NA of 0.20 enhances beam quality, providing a stable and focused output.
The device is equipped with a 1.5-meter fiber pigtail, allowing for flexible integration into various systems. It includes an SMA905 connector, facilitating straightforward connectivity. With a typical conversion efficiency of 22% and operating current of 50A at a voltage of 108V, this laser ensures reliable and energy-efficient performance.
Designed for both industrial and research environments, the GK-450050105S supports diverse applications such as laser marking, material processing, and scientific research. Its robust design and high output make it a versatile choice for demanding tasks requiring precise and powerful blue light.
50W 450nm 105μm Fiber Coupled Power Diode Laser
Specifications |
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|---|---|
| Laser Type: | Continuous Wave (CW) |
| Fiber Type: | Multi-Mode |
| Wavelength: | 450 nm |
| Output Power: | 50000 mW |
| Fiber Core Diamater: | 105 um |
| Fiber Cladding Diameter: | - um |
| Output Power: | 50 W |
| Center Wavelength: | 450 nm |
| Core Diameter: | Min:102 Typ:105 Max:108 μm |
| Numerical Aperture: | Min:0.2 Typ:0.22 Max:0.24 - |
| Pigtail Length: | Min:1.5 Typ:2.0 m |
| Connector: | SMA905 - |
| Operating Current: | 2.5 A |
| Operating Voltage: | 50×2/100 V |
| Conversion Efficiency: | 22 % |
Features
- High Output Power: Provides up to 50W for demanding applications
- Precision Wavelength: Operates at a center wavelength of 450nm for accurate light delivery
- Efficient Fiber Coupling: 105μm fiber core diameter and a numerical aperture (NA) of 0.22
- Stable Beam Quality: 95% power NA of 0.20 for consistent performance
- Flexible Integration: Includes a 1.5-meter fiber pigtail and SMA905 connector
- Energy-Efficient Operation: Typical conversion efficiency of 22% with an operating current of 50A and voltage of 108V
Applications
- Laser Marking: Ideal for marking and engraving materials with high precision
- Material Processing: Suitable for cutting and welding a variety of materials
- Scientific Research: Supports experiments and applications requiring high-intensity blue light
- Medical Devices: Can be used in medical applications needing precise light sources
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2024
Frequently Asked Questions
The GK-450050105S diode laser delivers a maximum output power of 50 watts, making it suitable for high-intensity applications.
This diode laser operates at a center wavelength of 450 nanometers, providing a precise blue light output.
The fiber has a core diameter of 105 micrometers, which facilitates efficient light transmission and coupling.
The fiber features a numerical aperture of 0.22, which determines the light-gathering ability and focusing performance.
The 95% power numerical aperture is 0.20, ensuring stable and focused output at this aperture value.
The diode laser has a typical conversion efficiency of 22%, reflecting the proportion of electrical power converted into optical output.
The laser operates with a current of 50 amps and a voltage of 108 volts, ensuring optimal performance and power management.
The fiber pigtail is 1.5 meters in length and comes with an SMA905 connector for ease of integration and use.
This laser is commonly used in applications such as laser marking, material processing, scientific research, and medical devices, due to its high output power and precision.
Regular maintenance includes ensuring proper cooling, checking the fiber connections, and monitoring power output to maintain optimal performance and longevity.