The Hybrid 3D Laser Micro Fabrication System is a multifunctional femtosecond laser workstation that unifies four core processes—Multiphoton Polymerisation, Selective Laser Etching, Laser Ablation, and Laser Cutting—within one platform. Ultrafast laser pulses interact with materials through nonlinear absorption, allowing precise modification without thermal damage. This enables both additive 3D printing of polymer structures and subtractive machining of glass and other materials. By eliminating the need for multiple machines and re-alignment steps, the system ensures high dimensional accuracy, seamless process flow, and true 3D microfabrication capability.

All-in-One Hybrid Fabrication Platform

Combines additive and subtractive laser technologies in one system, enabling uninterrupted fabrication workflows without part repositioning.

Ultrafast Femtosecond Laser Processing

Ultrashort pulses ensure cold processing, minimal heat-affected zones, and preservation of material properties at micro and nano scales.

Multiphoton Polymerisation (MPP) Capability

Enables freeform 3D printing of polymer structures with feature sizes down to ~200 nm for biomedical, optical, and mechanical applications.

Selective Laser Etching (SLE) for Glass

Creates enclosed microchannels and hollow structures inside transparent materials without bonding or assembly.

Integrated Laser Ablation and Cutting

Supports surface texturing, micro-machining, wafer structuring, and precise cutting of thin substrates.

Wide Material Compatibility

Processes glass, quartz, polymers, hybrid photoresists, thin metals, and semiconductor materials.

High-Precision Motion and Optics

Advanced XYZ stages and high-NA objectives provide sub-micron positioning accuracy and stable fabrication across large working areas.

Seamless CAD-to-Fabrication Workflow

Supports standard design formats with advanced software for slicing, toolpath generation, and real-time visualisation.

Expandable and Future-Ready Architecture

Open system design allows integration of additional lasers, vision modules, beam shaping, and automation options.

Biomedical and Healthcare Technologies

Fabrication of microneedle arrays, tissue engineering scaffolds, drug delivery devices, and lab-on-chip microfluidic systems.

Microfluidics and Lab-on-a-Chip

Creation of enclosed 3D microchannels, mixers, valves, and chambers inside glass substrates for diagnostics and chemical analysis.

Optics and Photonics

Manufacturing of micro-lenses, waveguides, diffraction gratings, beam splitters, and integrated photonic components.

Micromechanics and MEMS

Production of micro-springs, gears, actuators, levers, and encapsulated mechanical systems for sensors and micro-robotics.

Semiconductor and Microelectronics

Laser ablation and cutting for wafer structuring, packaging components, photonic integrated circuit interfaces, and precision housings.

Academic and Research Laboratories

Rapid prototyping of experimental devices, exploration of new materials, and development of novel microfabrication processes.

Advanced Prototyping and Custom Manufacturing

Ideal for start-ups and innovation labs requiring flexible, low-volume production with extreme design freedom.

United Spectrum Instruments brings the Hybrid 3D Laser Micro Fabrication System to India with end-to-end technical and application support. As the official distributor of Femtika, we go beyond system supply by offering installation, commissioning, training, and long-term service. Our close collaboration with research institutions, start-ups, and industrial R&D teams ensures each system is configured for precise, application-specific success.

• Official distributor in India for Femtika hybrid 3D laser micro fabrication systems

• Comprehensive support covering installation, commissioning, and operator training

• Application specialists for use-case-specific configuration and optimisation

• Long-term service partnership focused on precision manufacturing and innovation