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Fraunhofer ILT announces ‘dawn of laser-based optics production’

10 Apr 2024

Digitally controlled laser processes save both time and costs in production of aspheres, freeform optics.

The optical industry “almost completely relies on mechanical processes in its process chains,” So says laser and photonics research center Fraunhofer Institute for Laser Technology (ILT).

This, however, could soon change. The ILT, based in Aachen, Germany, this week announced that it is pushing ahead with digitally controlled laser processes that save both time and costs when aspheres and freeform optics are shaped, polished and their final shape is corrected.

The ILT will be presenting the laser-based process chains of the future at Optatec trade fair, between May 14-16th, in Frankfurt, and at the first Laser-based Optics Production conference, in Aachen, between October 15-16th.

The trend towards aspheres and freeform optics is pushing traditional process chains – ones based on purely mechanical processing in the optical industry – to their limits, contends ILT. To overcome this, the institute will be presenting its vision of highly flexible laser-based process chains for optics production at Optatec.

Even today, individually designed aspheres and freeform optics can be produced using laser processes. “The key advantage of the laser is its digital control in conjunction with massless and contactless material processing,“ said Dr. Edgar Willenborg, Head of the Polishing Group at the ILT.

Since the process is digitally controlled and does not need forming tools, processing times no longer depend on the lens shape. This results in clear cost benefits, especially for complex geometries. “As no consumables are used, laser processes also minimize the amount of cleaning required,“ said Willenborg.

Laser shaping

This laser-based process chain of the future is based on shaping by ablation with ultrashort pulse (USP) lasers or Selective Laser-induced Etching (SLE). The Fraunhofer ILT’s agenda also includes laser polishing of glass and, if required, polymer-based lenses as well as precision shape correction in the high-end sector. The latter has already been demonstrated by a team led by Emrah Uluz, a research associate in the Fraunhofer ILT’s Shape Correction of Optics research field, using CO2 and USP lasers.

CO2 lasers are also used for laser polishing. Four-fifths of their energy is absorbed in the uppermost layers of glass. The penetration depths are between 3 µm and a maximum of 30 µm. This is where the glass melts, transforms into a honey-like state and then automatically smoothes out as it cools on account of the surface tension.

This remelting of the surface layer, including surface smoothing due to interfacial tension, results in outstanding surface qualities: Roughness in the sub-nanometer range sets new standards and predestines laser processes for applications that require the highest optical performance.

Laser-based processes are already supplementing the mechanically dominated process chains in the industry as they can eliminate the micro-roughness that causes light to scatter and lenses to appear cloudy.

“We are systematically working on using hybrid approaches like this to create all-round laser-based process chains in optics production,“ said Uluz. The spectrum ranges from micro and macro optics or individually shaped special optics to glass bodies that can also be structured internally using SLE.

Mechanical and laser-based processes still complement each other, but the clear goal of the Fraunhofer ILT is to make the advantages of laser technology useful for all areas of optics production. “Laser-based processes offer considerable advantages as they can save both energy and resources, especially for complex geometries,“ concluded Willenborg.

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