GZTECH: Expanding the ultra-fast Laser Product Line to Build a More Complete Industrial and Scientific laser Source Layout

With the continuous development of precision manufacturing and micro/nano processing technologies, the industry's requirements for ultrashort pulse Laser sources are gradually shifting from "usable" to "high stability, long lifespan, and multi-wavelength." Against this backdrop, GZTECH continues to extend the product line from traditional industrial lasers toward higher-end ultra-fast applications, building a more engineered ultra-fast laser system based on its "nine-cavity mode-locking" technology.

The newly launched solid-state ultra-fast laser marks another milestone for our GZTECH “nanosecond → Picosecond → Femtosecond” product progression, laying a stable foundation for future expansion into shorter pulse duration, higher peak power, and multi-wavelength outputs.

01 Core Technology Breakthrough: From Material Dependence to Purely Physical Mode Locking

Our GZTECH adopt own independently developed "Nine-Cavity Mode Locking" technology. Which leverages nonlinear amplification loop principles to achieve self-mode locking through fiber nonlinear effects, eliminating semiconductor absorption layer loss and removing the low-damage-threshold SESAM device. With a theoretical lifespan exceeding 50,000 hours, it significantly reduces the frequency and cost of equipment maintenance. This technology provides a solid foundation for long-life, high-stability industrial-grade ultra-fast lasers.

Solid-state ultra-fast laser

02 Superior Performance Guarantee: High Stability, High Beam Quality, and Fast Start-up.

High Stability: Based on the Nine-Cavity Mode Locking solution, the laser maintains output power stability with RMS ≤ 1% during continuous operation exceeding 20 hours. meeting the stringent requirements of long-term stable output for industrial processing and precision experiments.

Long-Term Output Power Curve

High Beam Quality: Beam quality M² < 1.3, featuring high focusing capability and processing precision.Suit for high-end applications such as nanoscale structure fabrication and micro-pattern engraving.

Beam Quality

Rapid Start-up: Reliability testing has shown that the laser can achieve mode-locking self-start within the temperature of 5~35°C, with a start-up time of less than 10 seconds, supporting rapid response and job switching in all weather conditions.

03 Flexible Parameter Configuration for Diverse Process Requirements

· Pulse width <15ps

· Wide repetition rate range: Single Shot ~ 2MHz

· Multiple wavelengths available: Infrared, Green, Ultraviolet

It provides high-performance ultra-fast Laser sources for micro/nano fabrication, brittle material processing, medical device preparation, scientific research, and other applications.

Auto correlation curve

Typical Application Cases:

  Stainless Steel Colorization                    

Steel Needle Blackening

Glass Marking                                   

Grinding grooves on cutting tool steel   

Metal Surface Etching

 Micro-structure Processing               

Copper Deep Engraving