Industry Applications
Various fields, provide different modes of solid-state laser products
Solid nanosecond laser
Release time:
2024-11-22
Number of views:
| Laser Model | TR-W-UV03 | TR-W-UV05 | TR-W-GR07 | TR-W-GR12 | TR-W-IR10 | TR-W-IR15 |
| Wavelength | 355 | 355 | 532 | 532 | 1064 | 1064 |
| Output average power | >3W@30KHz | >5W@40KHz | >7W@50KHz | >12W@50KHz | >10W@cw | >15W@cw |
| Maximum single pulse energy | 0.1mJ@30KHz | 0.12mJ@40KHz | 0.14mJ@50KHz | 0.24mJ@50KHz | 0.25mJ@30KHz | 0.4mJ@30KHz |
| pulse repetition frequency | 1-150KHz | 1-150KHz | 1-150KHz | 1-150KHz | 1-150KHz | 1-150KHz |
| Pulse width | <15ns@30KHz | <18ns@40KHz | <20ns@50KHz | <20ns@50KHz | <15ns@30KHz | <15ns@30KHz |
| Average power stability (12 hours) | <3% | <3% | <3% | <3% | <3% | <3% |
| spatial pattern | TEM00 (M2<1.2) | TEM00(M2<1.2) | TEM00 (M2<1.2) | TEM00(M2<1.2) | TEM00(M2<1.2) | TEM00(M2<1.2) |
| spot roundness | >90% | >90% | >90% | >90% | >90% | >90% |
| Outlet spot size (6 times expanded beam) | 0.7nm | 0.8nm | 0.7nm | 0.8nm | 0.7nm | 0.8nm |
| beam divergence angle | <0.2 | <0.2 | <0.2 | <0.2 | <0.2 | <0.2 |
| spot pointing stability | <20 | <20 | <20 | <20 | <20 | <20 |
| degree of polarization | >100:1 Horizontal | >100:1 Horizontal | >100:1 Horizontal | >100:1 Horizontal | >100:1 Horizontal | >100:1 Horizontal |
| Preheating time | <30 | <30 | <30 | <30 | <30 | <30 |
| Use ambient temperature | 15 ℃-30 ℃ | 15 ℃-30 ℃ | 15 ℃-30 ℃ | 15 ℃-30 ℃ | 15 ℃-30 ℃ | 15 ℃-30 ℃ |
| Use ambient humidity | 20 to 80 non- condensing |
20 to 80 non- condensing |
20 to 80 non- condensing |
20 to 80 non- condensing |
20 to 80 non- condensing |
20 to 80 non- condensing |
| Cooling method C | Water | Water | Water | Water | Water | Water |
| Supply voltage | 12 | 12 | 12 | 12 | 12 | 12 |
| Communication Protocol | RS232 | RS232 | RS232 | RS232 | RS232 | RS232 |
| Volume | 360x155x120 | 360x155x120 | 360x155x120 | 360x155x120 | 360x155x120 | 360x155x120 |
| Weight | 7.5kg | 7.5kg | 7.5kg | 7.5kg | 7.5kg | 7.5kg |
A solid nanosecond laser is a type of laser that emits light pulses in the nanosecond time scale. This laser has various applications and is widely used in different sectors. In industrial settings, the solid nanosecond laser is commonly used for marking, engraving, and surface treatment. It can create precise and permanent marks on a variety of materials. The longer pulse duration compared to picosecond lasers makes it suitable for these types of applications where a certain amount of heat accumulation is acceptable. In the field of telecommunications, solid nanosecond lasers are used in fiber optic communication systems for signal generation and amplification. They play a crucial role in ensuring reliable and high-speed data transmission. In scientific research, these lasers are employed in experiments and studies that require controlled light pulses in the nanosecond range. The performance and characteristics of a solid nanosecond laser can be tailored to meet specific requirements. Different laser materials and designs are available to achieve desired wavelengths, output powers, and pulse shapes. The technology continues to evolve, offering improved efficiency and functionality. Solid nanosecond lasers provide a reliable and versatile tool for a wide range of applications, from industrial manufacturing to scientific exploration.
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902, Building 3, Baolong Specialized Special New Industrial Park, No. 20 Nantong Avenue, Baolong Street, Longgang District, Shenzhen