Laser Filament Cutting with PearlCut

Creating the Perfect Glass Edge

What is a filament? When an ultrashort laser pulse is very strongly focused into a transparent medium such as air or glass, nonlinear absorption effects lead to a self-generated focusing lens. This is comparable to placing a lens in the transparent medium, which further focuses the laser pulse. The high intensity of the laser pulse in the center of the Gaussian intensity distribution compared to the lateral flanks causes the wavefront to travel more slowly in the center, which corresponds to a focusing. This induced change of the refractive index is called optical Kerr effect.

The result of the self-focusing is an intensity high enough to ionize the glass material, which in turn leads to diffraction of the laser pulse. However, the intensity of the laser pulse is still high enough to cause the Kerr effect to occur again. As a result, the laser pulse repeatedly focuses itself along its propagation direction. This series of self-focussing is called a filament. A filament resembles pearls on a string. This is why we call the process PearlCut.

Some practical Considerations

How can glass be separated or cut with the help of a filament? A modification is not sufficient, since it is only a tiny weakening of the glass in a diameter of 1 - 3 µm. So, on the one hand, a filament, i.e. a series of modifications, should be created which completely penetrates the glass thickness. On the other hand, a line of filaments is necessary to form a dividing line in the cutting direction. Therefore the lens has to be moved relative to the glass body.

Automatic Glass Seperation

Where physically feasible, the glass is separated by a subsequent CO2 laser process. The necessary optics can be integrated together with the filament optics in one processing head or, if the cycle time requires it, can be offered in a separate machine. Where CO2 separation is physically impossible due to a too low coefficient of thermal expansion, a standard mechanical breaking process can follow. The glass separation process using a CO2 laser is based on selective heating along the filament line, which creates a temperature gradient perpendicular to the cutting line. This results in tensile stresses in the glass, which lead to separation along the filament line.

CO2 separation works particularly well for glass types with a relatively high coefficient of thermal expansion. Chemically tempered glass separates by itself due to internal residual stress. Thermally toughened glass can be separated if the toughening is low enough.

Advantages of PearlCut

The advantages of applying filament-based glass cutting over conventional mechanical methods like scribe and break are numerous: 

  • The process does not generate any glass particles or residues, thus avoids a subsequent cleaning step.
  • Filament cutting is a dry process without the need to use water. The effect of this may be larger than expected, not only that the water has not to be paid for, in addition no drying has to be applied afterwards and also very important to note, there is no need for a costly water treatment. 
  • The absence of chipping or micro-cracking combined with the low edge roughness of Ra < 1 µm provides high edge strength. 
  • The filaments can be introduced into the material at speeds of up to 1 m/s and above for economic takt times in many applications. 

Enhancing your Capabilities

Additional benefits compared to conventional mechanical cutting technologies are:

  • Complex cutting geometries are possible, notches etc. can be generated.
  • No material loss and no wear of tool means extremely precise dimensional accuracy, constant across large production runs. 
  • Ultra-thin glass and glass stacks can be cut, even with an offset between the upper and the lower glass.
  • Combined with a CO2-laser separation process a full automation is possible, increasing yield and safety.
3D Cutting Wing
Glass Substrate
Phone Camera Glass

4JET's solution for the perfect glass edge

After all PearlCut proves to be an enabling technology for many applications, e.g. the singulation of thin glass into single products.

Meet our PEARLs designed for robust, fast and cost-effective laser glass cutting able to create the perfect edge in technical glass applications.


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