Description
Pulsed Laser Systems represent the pinnacle of laser technology, engineered to meet the rigorous demands of high-energy applications. These systems are renowned for their exceptional energy output and industry-leading efficiency, delivering unparalleled performance even in the most challenging environments. High-E Photonics' commitment to innovation ensures that each system is equipped to provide precision performance tailored to specific pulse requirements, making them an ideal choice for those seeking advanced laser solutions.
High-E Photonics has established itself as a leader in next-generation photonics solutions through its relentless pursuit of efficiency and scalability. The company's advancements in laser technology are not only pushing the boundaries of what is possible but also setting new standards in the industry. By focusing on innovative system architectures, such as monolithic designs that enhance stability and modular configurations that allow for customizable performance, we ensure that its pulsed laser systems deliver reliability and performance in any environment.
With a range of systems including the HEP-1030/1064, HEP-1500, HEP-2000, and the J-Class, High-E Photonics provides a variety of options to meet diverse needs. These systems offer a wide spectrum of wavelengths and pulse energies, catering to both standard and customer-specific requirements. Whether you need sub-picosecond to nanosecond pulse durations or specific pulse parameters, High-E Photonics' pulsed laser systems are designed to offer precision and adaptability. Furthermore, their systems boast impressive pulse stability and beam parameters, ensuring consistent and reliable performance.
Incorporating customer-specific options like tunable pulse durations, GHz operation, and external pulse compression, High-E Photonics' systems are versatile and capable of handling complex tasks. Their ability to generate second, third, and higher harmonic generations (SHG, THG, HHG) further exemplifies their commitment to providing comprehensive laser solutions. With High-E Photonics, you are choosing a partner dedicated to delivering excellence in laser technology.
High-Efficiency Pulsed Laser Systems for Industrial and Custom Applications
Specifications
Center Wavelength: | 1030 nm |
---|---|
Repetition Rate: | 1 – 1000 kHz |
Pulse Energy: | 300 mJ |
Energy Stability (RMS): | 1 % |
Pulse Duration: | 100 fs |
Pointing Stability (RMS): | 50 urad |
Polarization: | Vertical |
Spatial Mode (M^2): | <1.3 |
Amplification Scheme: | OPCPA |
Wavelength: | 1030-1064nm, 1500nm, 1670-2300nm, 1030nm & 1880nm |
Pulse Energy: | 1mJ to 100mJ, 1mJ, 1mJ to 100mJ, 1-100J |
Average Power: | 100W to 500W, 100W, 100W to 500W, Customer specific |
Pulse Duration: | Sub-picosecond to nanosecond, Picosecond to nanosecond, Sub-picosecond to nanosecond, Customer specific |
M^2: | <1.3, <1.3, <1.3, <1.5 |
Pulse Stability (STD/Mean): | 0.83% |
Beam Parameter M^2 X/Y: | < 1.05 |
Astigmatism: | 0.12 |
Asymmetry: | 1.02 |
Features
- High energy for demanding applications
- Industry-leading efficiency
- Industrial reliability, proven stability in harsh environments
- Precision performance to tailor-made pulse specifications
Applications
- High energy for demanding applications
- Industrial reliability, proven stability in harsh environments
Frequently Asked Questions
What are the available wavelengths for the Pulsed Laser Systems?
What pulse energy ranges are offered by these laser systems?
How stable are the pulses in these laser systems?
What customization options are available for these laser systems?
What is the average power output of these laser systems?
How does high-E Photonics ensure reliability in harsh environments?
What are the beam parameters for the mJ-system?
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