Femtosecond Laser Micro-Nano Processing System

The femtosecond laser micro-nano processing system represents a cutting-edge platform for high-precision fabrication at the micro and nanoscale. With its advanced optical design, superior accuracy, and user-friendly operation, this system provides a powerful tool to support scientific research, materials engineering, and microfabrication applications.

We believe that this high-performance femtosecond laser micro-nano processing system, with its outstanding flexibility and precision, will greatly enhance innovation in both laboratory and industrial environments.

Dual-Wavelength Ultrafast Processing Capability

This system is equipped with dual-wavelength femtosecond laser sources (1030 nm and 515 nm), offering a wide processing range for diverse materials.
The platform integrates:

• -A high-precision XYZ direct-drive motion stage

• A galvanometer scanning head for fast, dynamic beam steering

• A marble-based gantry frame ensuring exceptional mechanical stability

• A machine vision module for real-time process observation and alignment

• An optimized optical beam delivery and parameter control system

Together, these components enable submicron-level accuracy and repeatable performance in various micro-structuring and material modification tasks.

Versatile Material Processing

The femtosecond laser micro-nano processing system is capable of handling a broad spectrum of materials, including:
glass, ceramics, silicon, optical fiber, metals, plastics, and polymers.

Depending on the specific application, the system supports multiple processing modes such as:

• Laser micro/nano marking

• Laser drilling and micro-hole fabrication

• Precision cutting and dicing

• Laser welding of transparent or dissimilar materials

• Laser 3D printing and microstructuring

• Surface modification and texturing

This flexibility allows users to fabricate complex structures, functional microdevices, and high-value optical or electronic components with exceptional precision and minimal thermal effects.

Core Advantages of Femtosecond Laser Technology

Unlike conventional continuous-wave or nanosecond lasers, femtosecond lasers operate with ultrashort pulse durations (10⁻¹⁵ seconds), producing extremely high peak power with negligible heat diffusion.
This “cold processing” capability brings unique benefits:

• Minimal thermal damage to surrounding materials

• High aspect ratio and fine feature definition

• Capability to process transparent and brittle materials

• Reduced need for post-processing or polishing

These characteristics make femtosecond lasers ideal for applications in biomedical devices, micro-optics, MEMS, semiconductor components, and photonic structures.

Integrated Laser Solutions

In addition to femtosecond micro-nano systems, we also provide a complete range of laser sources and optical components, including:

• Semiconductor, solid-state, fiber, and gas lasers (CW, nanosecond, picosecond, femtosecond, single-frequency, and tunable types)

• Laser processing equipment for marking, welding, cleaning, and cutting

• Optical and photonic components such as mirrors, lenses, isolators, gratings, and fiber devices

By combining advanced laser technology with precision optics and motion control, we deliver comprehensive laser processing solutions tailored to research institutions, laboratories, and manufacturing enterprises.

Conclusion

The femtosecond laser micro-nano processing system marks a major step forward in ultrafast photonic manufacturing.
With its combination of high precision, flexible wavelength options, and robust optical integration, it enables new possibilities in microelectronics, photonics, and advanced material research.
Whether for experimental innovation or industrial production, this femtosecond laser platform stands as a reliable and versatile foundation for next-generation microfabrication.