The 50W infrared femtosecond laser independently developed and produced by Laserion, it combines high energy and extremely short pulse characteristics. Its features include high peak power, low heat-affected zone, and high processing precision, making it suitable for precision processing fields.
Ultrafast pulses (femtosecond level): Extremely short action time, achieving 'cold processing', almost no heat-affected zone, preventing material damage.
High power (50W-300W): Balances high energy and high repetition frequency, improves processing efficiency, suitable for industrial applications.
The laser source developed by Laserion are core components in measurement equipment and annealing equipment of semiconductor front-end manufacturing devices, and they are direct core consumables that affect wafer manufacturing yield, possessing significant development potential. At the same time, this series of products has unique technological advantages in material surface inspection, laser-induced breakdown spectroscopy (LIBS), laser-induced fluorescence (LIF), ultraviolet Raman spectrometers, and laser precision micromachining.
High repetition frequency can achieve maximum 120MHz, realizing import substitution and supporting domestic semiconductor testing.
This product adopts an automatic point-switching scheme, which can greatly extend the lifespan of the laser, ilfe time can up to 20,000 hours.
Superior beam quality(M²<1.3)
Supports RS232, GATE, TRIG control, and has PSO functionality.
Modular design, stable structure, easy to maintain.
Meets the high-precision applications of cutting, drilling, and through-holes for glass, sapphire, and special materials, with a small heat-affected zone and stable processing quality, suitable for various industries such as consumer electronics and high-end manufacturing.
Industrial products can achieve an output of up to 300W, with pulse energy reaching up to 3.5mJ, making it suitable for cutting glass materials thickness up to 20mm.
Superior beam quality(M²<1.3)
Supports RS232, GATE, TRIG control, and has PSO functionality.
Modular design, stable structure, easy to maintain.
Widely used in the fine cutting and scribing processes of OLED, FPC, silicon wafers, and copper foils.
The product can achieve a maximum output of 40W, with a lifespan of up to 15,000 hours. It has a very small heat-affected zone during processing, making it suitable for different micro-nano processing scenarios.
Superior beam quality(M²<1.3)
Supports RS232, GATE, TRIG control, and has PSO functionality.
Modular design, stable structure, easy to maintain.
The 50W IR Narosecond laser source(wavelength 1064nm) uses nanosecond pulses (10^-9 seconds) with medium to high power design, offering both high cost-effectiveness and stable processing capabilities.
It has industrial-grade reliability and an ultra-long service life (>10,000 hours), significantly reducing maintenance costs; the stability of pulse energy, combined with high peak power and excellent beam quality, ensures consistency and precision in processing results.
Using fully digital power control technology to achieve single pulse energy fluctuation control within ±1%, ensuring processing consistency.
Miniaturized and integrated design for easy system integration and space saving.
The 60W green nanosecond laser (wavelength 532nm) uses nanosecond pulses (10^-9 seconds) combined with a high-power design, offering both cost-effectiveness and stable processing capabilities.
With industrial-grade reliability and an ultra-long service life (>10,000 hours), reducing maintenance costs significantly; pulse energy stability, combined with peak power and excellent beam quality, ensures consistency and precision in processing results.
Using fully digital power control technology to achieve single pulse energy fluctuation control within ±1%, ensuring processing consistency.
Miniaturized and integrated design for easy system integration and space saving.
The 25W UV nanosecond laser (wavelength 355nm) uses nanosecond pulses (10^-9 seconds) with a medium to high power design, offering both cost-effectiveness and stable processing capabilities.
With industrial-grade reliability and an ultra-long service life (>10,000 hours), reducing maintenance costs significantly; pulse energy stability, combined with peak power and excellent beam quality, ensures consistency and precision in processing results.
Using fully digital power control technology to achieve single pulse energy fluctuation control within ±1%, ensuring processing consistency.
Miniaturized and integrated design for easy system integration and space saving.
This product can generate single pulse energy up to 1000 mj and a maximum repetition frequency of 1KHz in nanosecond-level lasers. According to requirements, we can customize and develop semiconductor pump solid-state lasers with greater pulse energy for applications in life sciences, instruments, and scientific applications, to meet the needs of users in different fields.
The MIR series high-energy mid-infrared pulsed laser independently developed by Laserion adopts a unique self-synchronized optical parametric frequency conversion technology, allowing for stable output of different wavelength beams ranging from 2.7 to 4.0um. Under sub-nanosecond pulse widths, the average power can reach up to 20W and the maximum pulse energy can reach 10mJ.
